· 2 the 82nd ieee vehicular technology conference vtc2015-fall boston programme welcome from the...

The 82nd IEEE Vehicular Technology Conference

Final Programme

6 – 9 September 2015

Boston, MA USA

VTC2015-FallBOSTON

Innovation Meets Tradition

2 The 82nd IEEE Vehicular Technology Conference VTC2015-Fall Boston Programme

Welcome from the General Co-chairs

We welcome you all to the 82nd IEEE Vehicular Technology Conference (VTC2015-Fall) hosted in one of America’s most historic and culturally-rich cities: Boston! It will be exciting to immerse in numerous significant historical sites following the Freedom Trail, strolling Quincy Market/Fanueil Hall, Boston Harbor, Bunker Hill, USS Constitution, the Boston Commons, and Fenway Park. Or you may prefer to follow the footsteps of Bell to the birth place of the phone or Marconi and the location of the first wireless transmission in North America. Boston and the surrounding New England area is also one of the premier high technology regions in the Nation and the World, with hundreds of companies and dozens of universities calling this area home. Consequently, we believe that the theme for VTC2015-Fall is very fitting: Innovation Meets Tradition. Connected vehicles, mobile networks and applications, wireless communications, and vehicular systems – we truly live in a highly mobile world, where today's society is becoming ever increasingly reliant on these technologies for supporting a plethora of essential day-to-day operations. With this growing demand for vehicular technologies and applications, we are also beginning to experience numerous technical challenges that require innovative solutions in order to enable the continuation of this growth. Consequently, we are very excited by the 4-day conference program that has been assembled for VTC2015-Fall. We have 74 oral technical sessions of high-quality papers from around the world to be

presented by international experts, accompanied by three poster sessions presenting recent results of the latest vehicular, mobile, and wireless technologies. Twenty-six short papers will be presented in both 3-minute “elevator-pitch” oral presentation and poster presentation formats. Three industry tracks taking place: automotive technologies; 5G and future wireless technologies; and autonomous systems & connected vehicles. We thank our gold-level patrons and exhibitors MediaTek and Analog Devices, our bronze-level patron TELUS, our workshop patron and exhibitor National Instruments, and our exhibitors Azimuth Systems, BeeCube, and MathWorks for their generous support of this conference. During this conference, you will discover the latest ideas and research findings in vehicular technology. We hope that you will brainstorm and share ideas with your fellow conference attendees, and foster research collaborations and friendships that will increase and grow even after the conclusion of this event. We encourage all of you to explore Boston after hours and enjoy the sights and activities provided by our host city! Wishing you a very productive and exciting conference experience, and we hope to meet all of you in-person during this event in Boston! Alex Wyglinski and Zoran Zvonar General Co-chairs, IEEE VTC2015-Fall

Welcome from the TPC Co-chairs Welcome to Boston! We are excited to present a comprehensive technical program for VTC Fall 2015 that will engage and interest you over the next few days. You will have the opportunity to learn about an incredibly wide range of cutting-edge research topics related to technology for vehicular communications. This spans research on individual networked devices to operation of entire fleets of vehicles. To help organize the material for attendees, the conference is arranged into a number of tracks and workshops. The tracks form the core of the conference and are comprised of similarly themed papers. These core tracks are augmented by Recent Results and Short Papers that insert ongoing and highly specialized research topics into the overall technical program.

Finally, the Workshops and Emerging Technology Tracks provide focused settings for technologies that we wanted to highlight. We hope that you will take the opportunity to enjoy this wide range of papers, presentations, and posters from a diverse and international set of academic and industrial researchers.

A significant amount of work goes into preparing an event as complex as VTC. We owe too many debts of gratitude to even enumerate them all, but there were a few select teams that deserve explicit recognition. First, we would like to thank all the authors for the performing their research and taking the effort to share it with the world. We received submissions from every corner of the globe and through a rigorous review process, we selected just over 400 papers for

The Westin Boston Waterfront, in Boston, USA 6-9 September 2015 3

inclusion in the program. These selections were made by a team of more than 1000 expert volunteers, both TPC members and external reviewers, who provided their time and energy to ensure a high quality program. Lastly, we must recognize the contributions of the more than 30 track chairs and workshop organizers who were the lynch pins of the whole operation. Each of these individuals spent many hours over nights and weekends in their service to the

conference, and without their dedication, the event literally would not exist. Thank you!

We hope you all enjoy your time in the Boston and look forward to interacting with all of you in the future.

Kaushik Chowdhury, Nicholas Kirsch and Tom MacDonald, TPC Co-chairs, IEEE VTC2015-Fall

Welcome from the VTS President On behalf of the IEEE Vehicular Technology Society, it gives me great pleasure to welcome you to the IEEE 82nd Vehicular Technology Conference in Boston. We will gather once again for four days of technical and scientific meetings and informal exchanges with researchers from around the globe; for more than 60 years, specialists from academia, government and industry have taken advantage of this forum to disseminate their latest findings in wireless, mobile and vehicular technology, and to discuss the future of the discipline. This edition will again attract several hundred delegates from many different countries. The organization of such an event requires years of planning and execution, and I would like to recognize the tremendous efforts and leadership of General co-Chairs Alex Wyglinski and Zoran Zvonar, who have put together an outstanding team to deliver an event that promises to be memorable. Among the members of the organizing team, let me also single out Technical Program co-Chairs Kaushik Chowdhury, Tom MacDonald and Nicholas Kirsch: their hard

work ensures that the program you will experience meets the highest technical and scientific standards that our community has come to expect. “Innovation meets Tradition” is the theme of this conference, and this could not be more fitting in such an exceptional setting as Boston; known in the United States as the Cradle of Liberty, Boston is a city full of history that you will enjoy exploring on foot, on a path that will lead you through many key moments of the formation of the country. At the same time, Boston is one of the largest education cities in North America, home to world-leading educational institutions, and thriving with high tech companies. I hope you will be able to join us for the conference banquet, featuring a traditional New England clambake! I hope that your overall experience at VTC Boston will be an enjoyable one, and that we will be able to meet in person during the event.

Fabrice Labeau, President IEEE Vehicular Technology Society

Organizing Committee

General Co-Chairs Alex Wyglinski Worcester Polytechnic Institute, USA Zoran Zvonar Media Tek Wireless, USA

Technical Program Kaushik Chowdhury Northeastern University, USA Co-chairs Tom MacDonald MIT Lincoln Laboratory, USA

Nicholas Kirsch University of New Hampshire, USA Tutorials Co-chairs Ali Abedi University of Maine, USA

Hossein Pishro-Nik University of Massachusetts Amherst, USA Speakers Co-chairs Vahid Tarokh Harvard University, USA

Vedat Eyuboglu Airvana Corporation, USA Local Arrangements Chair Bo Sheng University of Massachusetts Boston, USA

Publicity Chair Honggang Wang University of Massachusetts Dartmouth, USA Publications Chair Tao Jin Qualcomm Research, USA

Panels Co-chairs Vlad Bulavsky Analog Devices, USA Stefano Basagni Northeastern University, USA

Patronage & Exhibits Chair Jim Budwey ICTS Group, USA Finance Chair J. R. Cruz University of Oklahoma, USA

Technical Advisory Committee Chair James Irvine University of Strathclyde, UK Conference Administrator Jim Budwey IEEE VTS

Assistant Conference Administrator R. Clint Keele IEEE VTS


Local Arrangements IEEE eXpress Conference Publishing Sherri Young (IEEE)

IEEE Conference Services Jillian Pahren (IEEE)

Webmaster Laura Hyslop (EPSC)

Technical Program Committee

Co-chairs Kaushik Chowdhury Northeastern University, USA Tom MacDonald MIT Lincoln Laboratory, USA Nicholas Kirsch University of New Hampshire, USA Vice-Chairs, Ad-hoc and Sensor Networks Duc Tran University of Massachusetts - Boston, USA Yunhao Liu Tsinghua University and HKUST, China Berk Canberk Istanbul Technical University, Turkey Vice-Chairs, Antennas, Propagation and RF Roy Axford Space & Naval Warfare Systems Center Pacific, USA Design Jonathan Chisum University of Notre Dame, USA Vice-Chairs, Cognitive Radio and Spectrum Chittabrata Ghosh Intel Corporation, USA Sensing Sudharman K. Jayaweera University of New Mexico, USA Vice-Chairs, Cooperative Communications, Lorenza Giupponi CTC, Spain Distributed MIMO and Relaying Marco Direnzo French National Centre for Scientific Research Vice-Chairs, Connected Vehicles Andreas Festag Dresden University of Technology, Germany Pu Wang Wichita State University, USA Vice-Chairs, Multiple Antenna Systems and Mikko Valkama Tampere University of Technology, Finland Services Songqing Zhao Apple, USA Vice-Chairs, Satellite Networks and Eric Hall L-3 Communications, USA Positioning Technologies Mikhail (Misha) Tadjikov The Aerospace Corporation, USA Vice-Chairs, Transmission Technologies and Steven Boyd Scientific Research Corporation, USA Communication Theory Richard Barron The MITRE Corporation, USA Pawel Dmochowski Victoria University of Wellington, New Zealand Vice-Chairs, Transportation, Vehicular Christian Wietfeld Dortmund University of Technology, Germany Networks, and Telematics Michael Hempel University of Nebraska – Lincoln, USA Vice-Chairs, Cellular Networks David M. Gutierrez Estevez Huawei, USA Enrico Natalizio Université de Technologie de Compiègne, France Marcello Caleffi University of Naples Federico II, Italy Vice-Chairs, Wireless Network Security Bishal Thappa Raytheon BBN Technologies, USA Adam Aviv United States Naval Academy, USA Vice-Chairs, Next Generation Wireless Marco DiFelice University of Bologna, Italy Networks Andreas Kassler Karlstad University, Sweden Vice-Chairs, Emerging Technologies: Cloud Periklis Chatzimisios Alexander TEI of Thessaloniki, Greece Computing Yonggang Wen Nanyang Technological University, Singapore Vice-Chairs, Emerging Technologies: Light- Thomas Little Boston University, USA based Communications and Positioning Anna Maria Vegni Roma Tre University, Italy Vice-Chair, Emerging Technologies: 3.5GHz Spectrum Re-allocation Opportunities Jeffrey Reed Virginia Tech, USA

Vice-Chairs, Recent Results and Short Papers Srikanth Pagadarai Worcester Polytechnic Institute, USA Paulo Victor Ferreira Worcester Polytechnic Institute, USA

Members

Atef Abdrabou, United Arab Emirates University Muhammad Adeel, University of Engineering and Technology

Peshawar Ashish Agarwal, Boston University Marina Aguado, University of the Basque Country (UPV/EHU) M. Carmen Aguayo-Torres, Universidad de Malaga Wessam Ajib, University of Quebec at Montreal Ozgur Akan, Koc University Luigi Alfredo Grieco, DEE - Politecnico di Bari Sahibzada Ali Mahmud, University of Engineering and

Technology Peshawar

Seyed Alireza Zekavat, Michigan Technological University Gianluca Aloi, DIMES - University of Calabria Jesus Alonso-Zarate, Centre Tecnològic de Telecomunicacions

de Catalunya (CTTC) Fawaz Al-Qahtani, Texas A & M University at Qatar Onur Altintas, TOYOTA InfoTechnology Center Rahul Amin, MIT Lincoln Laboratory Habib Ammari, University of Michigan-Dearborn Jose Angel Garcia, Universidad de Cantabria Tricha Anjali, Illinois Institute of Technology A. Annamalai, Prairie View A&M University


Carles Anton, CTTC Angelos Antonopoulos, CTTC Lauri Anttila, Tampere University of Technology Giuseppe Araniti, University Mediterranea of Reggio Calabria Masayuki Ariyoshi, Advanced Telecommunications Research

Institute International (ATR) Nallanathan Arumugam, King's College London Ioannis Askoxylakis, FORTH-ICS Baber Aslam, National University of Sciences and Technology Alex Aved, Air Force Research Lab Adam Aviv, US Naval Academy Dimitrios I. Axiotis, National Technical University of Athens Serkan Ayaz, Huawei Technologies Giacomo Bacci, University of Pisa Kareem Emile Baddour, Communications Research Centre C. Faouzi Bader, CentraleSupélec Leonardo Badia, University of Padova Erdem Bala, Interdigital Communications Corporation Albert Banchs, Universidad Carlos III de Madrid Laurence Banda, Tshwane University of Technology Gaurav Bansal, Toyota Info Technology Center Vo Nguyen Quoc Bao, Posts and Telecommunications Institute

of Technology Jose Maria Barcelo-Ordinas, Universitat Politecnica de

Catalunya Javier Barria, Imperial College London Gerhard Bauch, Hamburg University of Technology Suzan Bayhan, University of Helsinki Norman Beaulieu, University of Alberta Luca Bedogni, University of Bologna Aydin Behnad, University of Western Ontario Boris Bellalta, Universitat Pompeu Fabra Paolo Bellavista, University of Bologna Daniel Benevides da Costa, Federal University of Ceara (UFC) Elhadj Benkhelifa, Staffordshire University Mehdi Bennis, University of Oulu Carlos J. Bernardos, Universidad Carlos III de Madrid André-Luc Beylot, University of Toulouse Sudeep Bhattarai, Virginia Tech Mario Bkassiny, SUNY Oswego Mate Boban, NEC Laboratories Europe Stefan Boecker, Dortmund University of Technology Luciano Bononi, University of Bologna Alessio Botta, University of Napoli Khaled Boussetta, University Paris 13 Torsten Braun, University of Bern Cesar Briso, Universidad Politecnica de Madrid Raffaele Bruno, CNR Ralf Burda, TU Dortmund University Alister Burr, University of York Jun Cai, University of Manitoba Ying Cai, Iowa State University Daniel Calabuig, Universidad Politecnica de Valencia Maria Calderon, University Carlos III of Madrid Emilio Calvanese Strinati, CEA-LETI MINATEC Joseph Camp, SMU Dallas Claudia Campolo, Università Mediterranea di Reggio Calabria Berk Canberk, Istanbul Technical University Jean-Pierre Cances, ENSIL Narcis Cardona, UPV Laurent Cariou, Orange Paolo Casari, Institute IMDEA Networks Roberto Cascella, Trust-IT Claudio Casetti, Politecnico di Torino

Dajana Cassioli, University of L Aquila Matteo Cesana, Politecnico di Milano Chin Choy Chai, Institute for Infocomm Research Animesh Chakravarthy, Wichita State University Benoit Champagne, McGill University Terence Chan, University of South Australia Elias Chavarria Reyes, Georgia Insititute of Technology Olfa Chebbi, University of Tunis Ali Chelli, University of Agder Genshe Chen, Intelligent Fusion Technology Chung Shue Chen, Alcatel-Lucent Bell Labs Si Chen, Cisco Xuetao Chen, Qualcomm Yuh-Shyan Chen, National Taipei University Julian Cheng, University of British Columbia Liang Cheng, Lehigh University Zhiyu Cheng, Freescale Liang Chu, Lockheed Martin Wei-Ho Chung, Academia Sinica Raul Gomez Cid-Fuentes, Universitat Politecnica de Catalunya

(UPC) Robert Cioffi, IAV Automotive Engineering Justin Coon, Oxford University Marilia Curado, University of Coimbra Rui Dai, university of cincinnati Claude D'Amours, University of Ottawa Ngoc-Dung Dao, Huawei Technologies Canada Co. Khalid A. Darabkh, The University of Jordan Sajal Das, The University of Texas at Arlington Klaus David, University of Kassel Alexei Davydov, Intel Corporation Antonio de la Oliva, University Carlos III of Madrid Rodrigo de Lamare, University of York Carl James Debono, University of Malta Armin Dekorsy, University of Bremen Richard Demo Souza, UTFPR Dan Deng, University of Science & Technology of China Vivek Deshpande, MIT College of Engineering Marco Di Felice, University of Bologna Marco Di Renzo, CNRS - SUPELEC - University Paris-Sud XI Stefan Dietzel, Humboldt-Universität zu Berlin Nikos Dimitriou, National Center of Scientific Research

"Demokritos" Haiyang Ding, Xidian University Hu Dingyong, Marvell. Inc. Rui Dinis, Tech. Univ. of Lisbon Ognjen Dobrijevic, University of Zagreb Wei Dong, Zhejiang Univeristy Pedro M. d'Orey, NEC Laboratories Europe Yongjiu Du, Broadcom Inc Lingjie Duan, Singapore University of Technology and Design Bertrand Ducourthial, Université de Technologie de

Compiègne Jared Dulmage, The Aerospace Corporation Tolga M. Duman, Bilkent Eryk Dutkiewicz, Macquarie University David Eckhoff, University of Erlangen Eylem Ekici, Ohio State University Salah Eddine Elayoubi, Orange Labs Maria Elena Renda, IIT - CNR Maged Elkashlan, Queen Mary University of London Jason Ellis, Scientific Research Corporation Samy El-Tawab, James Madison University Claudio Enrico Palazzi, University of Padova


Milan Erdelj, University of Technology of Compiegne Muge Erel, Istanbul Technical University Carla Fabiana Chiasserini, Politecnico di Torino Marcos Fagundo Caetano, University of Brasilia Erez Falkenstein, Qualcomm Yaser P. Fallah, West Virginia University Serge Fdida, Univ. Pierre et Marie Curie Guillem Femenias, University of the Balearic Islands Bruno Ferreira, Federal University of Minas Gerais Andreas Festag, Technische Universität Dresden Gerhard Fettweis, Technische Universität Dresden Marco Fiore, IEIIT - CNR Koorosh Firouzbakht, Northeastern University Mathias Fischer, International Computer Science Institute Chuan Heng Foh, University of Surrey Javier R. Fonollosa, Technical University of Catalonia Luca Foschini, University of Bologna Scott Fowler, Linköping University Weihuang Fu, Cisco Slawomir Gajewski, Gdansk University of Technology Ana Galindo-Serrano, ALTEN Alex Galis, University College London Ivan Ganchev, University of Limerick Yue Frank Gao, Queen Mary University of London Andrés Garcia Saavedra, Trinity College Dublin Johan Garcia, Karlstad University Ana García-Armada, Universidad Carlos III de Madrid Mario Garcia-Lozano, Universitat Politècnica de Catalunya José-María Molina García-Pardo, Universidad Politécnica de

Cartagena Glenn Geers, NICTA National ICT Australia Ali Ghandour, American University of Beirut Abolfazl Ghassemi, Stanford University Chittabrata Ghosh, Ali Ghrayeb, TAMUQ Stefano Giordano, University of Pisa Ramy H. Gohary, Carleton University Alberto González, Technical University of Valencia Ana I. González-Tablas, University Carlos III of Madrid Maria Gorlatova, D. E. Shaw Research Siddhartan Govindasamy, F. W. Olin College of Engineering Marco Gramaglia, CNR-IEIIT David Gregoratti, CTTC Francesco Gringoli, University of Brescia Yong Liang Guan, Nanyang Technological University Peng Guan, CNRS - SUPELEC - Univ. Paris-Sud XI Guan Gui, Akita Prefectural University Upul Gunawardana, University of Western Sydney Deke Guo, National University of Defense Technology (China) David Manuel Gutiérrez Estévez, Huawei USA Majed Haddad, INRIA Zoran Hadzi-Velkov, University of Erlangen Lars Haering, University of Duisburg-Essen Abdelhakim Hafid, University of Montreal Afshin Haghighat, InterDigital Communications Corporation Chong Han, Georgia Institute of Technology Hu Han, Nanyang Technological University Katsuyuki Haneda, Aalto University Lajos Hanzo, University of Southampton Wibowo Hardjawana, The University of Sydney Jérôme Härri, EURECOM Morteza Hashemi, Boston University Bing He, University of Cincinnati Ángela Hernández-Solana, University of Zaragoza

Peyman Hesami, University of Notre Dame/Qualcomm Technologies Inc.

Guido R. Hiertz, Ericsson Teruo Higashino, Osaka University Kenichi Higuchi, Tokyo University of Science Paul Ho, Simon Fraser University Siu-Wai Ho, University of South Australia Laurens Hobert, Hitachi Europe Ltd. Frank Hofmann, Robert Bosch GmbH Yi Hong, University of Monash Md Farhad Hossain, Bangladesh University of Engineering and

Technology Md. Jahangir Hossain, University of British Columbia Xiaolin Hou, DOCOMO Beijing Communications Laboratories

Co. Qiang Hu, Georgia Institute of Technology Sanqing Hu, Apple Chung-Ming Huang, National Cheng Kung University Xiaojing Huang, University of Technology Yuzhen Huang, PLA University of Science and Technology Chris Hudson, Intelsat General Corporation (IGC) Karin Hummel, University of Vienna Shinsuke Ibi, Osaka University Christoph Ide, TU Dortmund University Aissa Ikhlef, Newcastle University Salama Ikki, Lakehead University Christos Ilioudis, Alexander TEI of Thessaloniki Ali Imran, University of Oklahoma Muhammad Ali Imran, University of Surrey Crystal Jackson, MIT Lincoln Laboratory Murtuza Jadliwala, Wichita State University Yaser Jararweh, Jordan University of Science and Technology Han-You Jeong, Pusan National University Jaehoon Jeong, Sungkyunkwan University Zhang Jianhua, Beijing University of Posts and

Telecommunications Hao Jin, InterDigital Communications Shi Jin, Southeast University Kponyo Jerry John, Kwame Nkrumah University of Science

and Technology Diana Johnson, Aerospace Corporation Ramiro Jordan, University of New Mexico Markku Juntti, University of Oulu Sithamparanathan Kandeepan, RMIT University Burak Kantarci, Clarkson University Vasileios M. Kapinas, Aristotle University of Thessaloniki Georgios Karagiannis, Huawei Andreas Kassler, Karlstad University Dimitrios Katsaros, University of Thessaly JaWone Kennedy, SPAWARSYSCEN Atlantic Al-Sakib Khan Pathan, International Islamic University

Malaysia Muhammad RA Khandaker, University College London Dongku Kim, Yonsei university Wooseong Kim, University of Los Angles Mak King, Aerospace Corporation Anja Klein, Technische Universitaet Darmstadt Cornel Klein, Siemens Oliver Klemp, BMW Forschung und Technik GmbH Toshiaki Koike-Akino, MERL Volker Köster, Dortmund University of Technology J. Kotecha, Freescale Semiconducotr Yevgeni Koucheryavy, Tampere University of Technology Polychronis Koutsakis, Technical University of Crete


Erdem Koyuncu, University of California Irvine Ioannis Krikidis, University of Cyprus Witold A. Krzymien, University of Alberta / TRLabs Meng-Lin Ku, National Central University Sebastian Kühlmorgen, Technical University Dresden Hovannes Kulhandjian, Northeastern University Michel Kulhandjian, University of Buffalo Ernest Kurniawan, Institute for Infocomm Research Katsutoshi Kusume, DOCOMO Euro-Labs Eil Kwon, University of Minnesota Duluth Hyuck M. Kwon, Wichita State University Abderrahmane Lakas, UAE University Ingmar Land, Huawei Technologies Matti Latva-aho, University of Oulu Wing Cheong Lau, The Chinese University of Hong Kong Nadav Lavi, General Motors Didier Le Ruyet, CNAM Gottfried Lechner, University of South Australia Ahyoung Lee, Georgia Institute of Technology Inkyu Lee, Korea University Joel Lemorton, ONERA Ricardo Lent, University of Houston Joseph Levy, Inter Digital Chuxiang Li, Marvell Semiconductor Ding Li, Qualcomm Rui Li, Xidian University Wenjia Li, New York Institute of Technology Yang Li, University of New Mexico Yuanlong Li, Sun Yat- sen University Hai Lin, Osaka Prefecture University Shih-Chun Lin, Georgia Institute of Technology Thomas DC Little, Boston University Benyuan Liu, University of Massachusetts Ju Liu, Shandong University Liang Liu, NUS Ignacio Llatser, Technische Universität Dresden Brandon Lo, Idaho National Laboratory Dave Loftquist, Boeing Corporation Francesca Lonetti, Istituto di Scienza e Tecnologie

dell'Informazione (CNR) - Pisa F. Javier Lopez Martinez, University of Malaga Miguel López-Benítez, University of Liverpool David Lopez-Perez, Bell Labs - Alcatel-Lucent - Ireland Li Lu, University of Electronic Science and Technology of

China Wei Lu, CNRS Zongqing Lu, The Pennsylvania State University Daniel Lucani, Aalborg University Erik T. Lundberg, The MITRE Corporation Henrik Lundqvist, Huawei Technologies Hsi-Pin Ma, National Tsing Hua University Qiang Ma, Tsinghua University (China) Andreas Maeder, Nokia Networks Maurizio Magarini, Politecnico di Milano Leandros A. Maglaras, De Montfort University Francesco Malandrino, Politecnico di Torino Victoria Manfredi, BBN Technologies Pietro Manzoni, Polytechnic University of Valencia Xufei Mao, Tsinghua University Andrew Marcum, Purdue University Gustavo Marfia, Universita` di Bologna Angelos Marnerides, Liverpool John Moores University Johann M. Marquez-Barja, CTVR - Trinity College Dublin Ian Marsland, Carleton University

Francisco J. Martin-Vega, University of Málaga Nitin Maslekar, NEC Europe Labs George Mastorakis, Technological Educational Institute of Crete David Matolak, University of South Carolina Michail Matthaiou, Queen's University Belfast Constandinos Mavromoustakis, University of Nicosia Jonas Medbo, Ericsson Research Ahmed Mehaoua, University of Paris Descartes Tommaso Melodia, State Univ of New York Madjid Merabti, Liverpool John Moores University Xavier Mestre, Centre Tecnològic de Telecommunicacions de

Catalunya Guowang Miao, KTH Royal Institute of Technology Diomidis S. Michalopoulos, University of Erlangen-Nuremberg Jan Mietzner, EADS Cassidian Nobuhiko Miki, Kagawa University Wu Ming-Wei, Zhejiang University of Science and Technology Marco Miozzo, CTTC Josep Miquel Jornet, University at Buffalo Paul D. Mitchell, University of York Jens Mittag, Karlsruhe Institute of Technology (KIT) Rami Mochaourab, KTH Royal Institute of Technology Ali Mohamed, Egypt Japan university for science and

technology Abbas Mohammed, Consultant Sushanta Mohan Rakshit, University of Nebraska-Lincoln Simone Morosi, Università di Firenze Mohamed M. A. Moustafa, Egyptian Russian University Jessica Moysen, CTTC Lorenzo Mucchi, University of Florence Andreas Mueller, Robert Bosch GmbH Amitav Mukherjee, Ericsson Research Olga Muñoz, Technical University of Catalonia (UPC) M. A. Murtaza, University of Engineering and Technology

Lahore Yousof Naderi, Northeastern University Vinod Namboodiri, Wichita State University Mohammad Naserian, Hyundai America Technical Center Youssef Nasser, American University of Beirut Keivan Navaie, Lancaster University Monica Navarro, Centre Tecnologic de Telecomunicacions de

Catalunya (CTTC) Mehran Nekuii, McMaster University Derrick Wing Kwan NG, University of British Columbia Duy T. Ngo, University of Newcastle Lan Nguyen, Linquest Thinh Nguyen, Oregon State University Monica Nicoli, Politecnico di Milano Muhammad Danish Nisar, Technical University Munich

(TUM) Mingbo Niu, Queen's University Michele Nogueira, Gosan Noh, Electronics and Telecommunications Research

Institute Konstantinos Ntontin, CTTC Loutfi Nuaymi, Telecom Bretagne Hideki Ochiai, Yokohama National University Tobias Oechtering, KTH School of Electrical Engineering Claude Oestges, Université catholique de Louvain Tomoaki Ohtsuki, Keio University Eiji Okamoto, Nagoya Institute of Technology Robert L. Olesen, InterDigital Communications LLC Rodolfo Oliveira, Universidade Nova de Lisboa Joan Olmos, Universitat Politecnica de Catalunya (UPC)


Pasquale Pace, University of Calabria Evangelos Pallis, Technological Educational Institute of Crete Sooksan Panichpapiboon, King Mongkut's Institute of

Technology Ladkrabang (KMITL) Apostolos Papathanassiou, Intel Corporation Stefano Paris, Huawei Technologies Co. Ltd. Sungsoo Park, Korea Railroad Research Institute Panagiotis Paschalidis, Paul Patras, The University of Edinburgh Matthias Pätzold, University of Agder Luigi Paura, Universita di Napoli Federico II Przemysław Pawełczak, TU Delft Miquel Payaro, CTTC Tommaso Pecorella, University of Florence Ana Isabel Perez-Neira, Centro Tecnológico

Telecomunicaciones Cataluña Jordi Perez-Romero, Universitat Politecnica de Catalunya

(UPC) Antonio Pescapè, University of Napoli “Federico II” Jonathan Petit, University College Cork Stephan Pfletschinger, CTTC Khanh Pham, Air Force Research Laboratory Massimiliano Pierobon, University of Nebraska-Lincoln Daniele Pinchera, University of Casino Mylene Pischella, CNAM Steve Pisuk, Linquest Sara Pizzi, University "Mediterranea" of Reggio Calabria Petar Popovski, Aalborg University Basuki E. Priyanto, Sony Mobile Communications AB Daniele Puccinelli, University of Applied Sciences of Southern

Switzerland (SUPSI) Xiangjun Qian, Ecole des Mines de Paris Tran Minh Quang, Hochiminh City University of Technology Atta Quddus, University of Surrey Tony Q.S. Quek, Singapore University of Technology and

Design Jovan Radak, Université de Technologie de Compiègne Ilja Radusch, Fraunhofer FOKUS / TU Berlin - DCAITI Md Jahidur Rahman, University of British Columbia Veselin Rakocevic, City University London Balasubramanian Ramakrishnan, ViaSat Lars Rasmussen, KTH Royal Institute of Technology Saqib Rasool Chaudhry, KFU Tifenn Rault, Université de Technologie de Compiègne Danda B Rawat, Georgia Southern University Adeel Razi, University College London Ahmed Refaey, University of Western Ontario Fahimeh Rezaei, University of Nebraska - Lincoln Alberto Rico-Alvarino, Qualcomm Felip Riera-Palou, University of the Balearic Islands Taneli Riihonen, Columbia University Antonio Rodrigues, Instituto Superior Técnico/IT Hendrik Rogier, U Gent Sebastian Rohde, TU Dortmund University Tommy Royster, MIT Lincoln Laboratory Lorenzo Rubio Arjona, Technical University of Valencia Giuseppe Ruggeri, UNI RC Silvia Ruiz, Universitat Politècnica de Catalunya Harlan Russell, Clemson University Walid Saad, Virginia Tech Djamel Sadok, Federal University of Pernambuco Fatin Said, King's College London Yukitoshi Sanada, Keio University Matilde Sanchez, Univ. Carlos 3

Luca Sanguinetti, University Of Pisa José Santa, University Centre of Defence at the Spanish Air

Force Academy Angela Sara Cacciapuoti, University of Naples Federico II Susana Sargento, IT - Universidade de Aveiro Mamoru Sawahashi, Tokyo City University Amedeo Scarpiello, CNIT - Consorzio Nazionale

Interuniversitario per le Telecomunicazioni Malte Schellmann, Huawei Technologies Duesseldorf GmbH Björn Scheuermann, Humboldt University of Berlin Manuel Schiller, Technische Universität München Anke Schmeink, RWTH Aachen University Robert Schober, University British Columbia Florian Schweikowski, TU Dortmund University Riccardo Scopigno, Istituto Superiore Mario Boella Stefano Secci, UPMC Gokhan Secinti, Istanbul Technical University Sidi-Mohammed Senouci, University of Bourgogne Oyunchimeg Shagdar, INRIA Bo Sheng, UMass Boston Hyundong Shin, Kyung Hee University Veronika Shivaldova, Vienna University of Technology Osvaldo Simeone, New Jersey Institute of Technology Meryem Simsek, Technical University Dresden Sarabjot Singh, Nokia Technologies Sudhir Singh, Callaghan Innovation Charalabos Skianis, University of the Aegean Dirk T.M. Slock, EURECOM Daniel K C So, University of Manchester Christoph Sommer, University of Paderborn Houbing Song, West Virginia University Institute of

Technology Xuegui Song, University of British Columbia Yi Song, Wichita State University Tolga Soyata, University of Rochester Mujdat Soyturk, Marmara University Dirk Staehle, Hochschule Konstanz Razvan Stanica, INSA Lyon Marc St-Hilaire, Carleton University Reinhard Stolle, BMW Car IT Young-Joo Suh, Pohang University of Science and Technology

(POSTECH) Li Sun, Xi'an Jiaotong University Songlin Sun, Beijing University of Posts and

Telecommunications Sumei Sun, Institute for Infocomm Research Zhi Sun, The State University of New York at Buffalo CW Sung, City University of Hong Kong Himal Suraweera, University of Peradeniya A. Lee Swindlehurst, The University of California at Irvine Jan Sykora, Czech Technical University in Prague Randy Sylvester, L-3 Communications Yahia Tachwali, Keysight Technologies Valeo Mostafa Anwar Taie, Nile University Jun-ichi Takada, Tokyo Institute of Technology Satoshi Takahashi, Hiroshima City University Osamu Takyu, Shinshu University Yan Tan, New Jersey Institute of Technology Hidekazu Taoka, NTT DOCOMO Daniele Tarchi, University of Bologna Werner G. Teich, Ulm University Kemal Tepe, University of Windsor Tu Lam Thanh, Posts and Telecommunications Institute of

Technology


Bishal Thapa, BBN Fabrice Theoleyre, University of Strasbourg (CNRS) Reiner Thomä, Technische Universität Ilmenau Dimitris Toumpakaris, University of Patras Duc Tran, UMass Nghi Tran, University of Akron Dionysia Triantafyllopoulou, University of Surrey Angelo Trotta, University of Bologna Theodoros Tsiftsis, Technological Educational Institute of

Lamia Charalampos C. Tsimenidis, Newcastle University Eirini-Eleni Tsiropoulou, NTUA Manabu Tsukada, the University of Tokyo Anna Tzanakaki, University of Bristol Masahiro Umehira, Ibaraki University Sandesh Uppoor, Orange Labs Murat Uysal, Ozyegin University Reza Monir Vaghefi, Virginia Tech Antonio Valdovinos, University of Zaragoza Fabrice Valois, INSA Lyon - INRIA Rhone Alpes John Vardakas, IQUADRAT Fernando J Velez, Universidade da Beira Interior Christos Verikoukis, CTTC Bart Vermeulen, NXP Semiconductors Carlos Alberto Vieira Campos, Federal University of State of

Rio de Janeiro Massimo Villari, University of Messina Leandro Villas, Institute of Computing - University of Campinas Guillaume Villemaud, INSA de Lyon Alexey Vinel, Halmstad University Wantanee Viriyasitavat, Mahidol University Giorgio Vitetta, University of Modena Anna Vizziello, University of Pavia Triet Vo-Huu, Northeastern University Brett T. Walkenhorst, Georgia Tech Research Institute Liming Wang, Duke University Pu Wang, Wichita State University Rui Wang, The South University of Science and Technology of

China Shiqiang Wang, Imperial College London Xianmin Wang, Broadcom Corporation Xiaoyi Wang, Nokia Siemens Networks Yuanjie Wang, Beijing Jiaotong University Tobias Weber, University of Rostock Shuangqing Wei, Louisiana State University Xusheng Wei, Research in Motion Anthony J. Weiss, Tel Aviv University Michelle Wetterwald, HenetBot Risto Wichman, Aalto University Don Wilcoxson, ViaSat

Steve Wilson, University of Virginia Brian Wolf, MIT Lincoln Laboratory SeungHwan Won, University of Southampton David Tung Chong Wong, Institute for Infocomm Research Kai-Kit Wong, University College London Tan Wong, University of Florida Celimuge Wu, The University of Electro-communications Di Wu, Sun Yat-Sen University Hsiao-Chun Wu, Louisiana State University Jinsong Wu, Universidad de Chile Wencen Wu, RPI Yik-Chung Wu, The University of Hong Kong Dirk Wübben, University of Bremen Weidong Xiang, University of Michigan - Dearborn Yong Xiao, University of Houston Yue Xiao, University of Electronic Science and Technology of

China Kaiping Xue, University of Science and Techology of China Animesh Yadav, University of Quebec at Montreal (UQAM) Janghoon Yang, Korean German Institute of Technology Hyun Jong Yang, UNIST (Ulsan National Institute of Science

and Technology) Lie-Liang Yang, University of Southampton Ping Yang, UESTC Kazuto Yano, ATR Navid Yazdani, MIT Lincoln Laboratory Henry Yeh, Cal State Long Beach Phee Lep Yeoh, University of Melbourne Zhinong Ying, Sony Mobile Communication AB Chau Yuen, Singapore University of Technology and Design Lotfi Zaouche, University of Technology of Compiegne Alessio Zappone, Dresden University of Technology Nicola Zema, University Mediterranea of Reggio Calabria Hans-Jürgen Zepernick, Blekinge Institute of Technology Chao Zhang, Xi'an Jiaotong University Huazi Zhang, Nanyang Technological University Jun Zhang, Hong Kong University of Science and Technology Li Zhang, University of Leeds Liang Zhang, Communications Research Centre Canada Weiwen Zhang, Nanyang Technological University Xin Zhang, TU Dresden Kanglian Zhao, Nanjing University Songqing Zhao Kan Zheng, Beijing University of Posts and

Telecommunications Caijun Zhong, Zhejiang University Ruolin Zhou, Western New England University Xiangwei Zhou, Southern Illinois University Enrica Zola, Universitat Politecnica de Catalunya (UPC) Nizar Zorba, Qatar University

Reviewers Luis Fernando Abanto

Leon Abdelhafid Abouaissa Chadi Abou-Rjeily Taufik Abrao Koichi Adachi Muhammad Adeel Ali Afana Mohammad

Aghabababei Marina Aguado M. Carmen Aguayo-

Torres Hamed Ahmadi Imtiaz Ahmed Ahmed Wessam Ajib

Mustafa Riza Akdeniz Ozgur Umut Akgul Auon Akhtar Dimitrios Alanis Mustafa Al-Bado Taimour F.

Aldalgamouni Giusi Alfano Mohammed Al-

Husseini Anum Ali Ardalan Alizadeh Obada Al-Khatib Gianluca Aloi Fawaz Al-Qahtani Hussein Al-Shatri Islam Alyafawi

Marica Amadeo Alon Amar Angelos Amditis Rahul Amin SaiDhiraj Amuru Anastasopoulos Andre Angierski Tricha Anjali Alagan Anpalagan Keyvan Ansari Imran Shafique Ansari Carles Anton Angelos Antonopoulos Lauri Anttila Ilyana Anwar Khoirul Anwar Giuseppe Araniti

Jesus Arnau Yanez Ashwin Ashok Baris Atakan Saman Atapattu Italo Atzeni Stefano Avallone Nurilla Avazov Alex Aved Adam Aviv Roy Axford Dimitrios I. Axiotis Danish Aziz Giacomo Bacci Kareem Emile

Baddour C. Faouzi Bader Leonardo Badia

Israfil Bahceci Tianyang Bai Chandra Bajracharya Erdem Bala Ravikumar

Balakrishnan Marco Baldi Busra Gozde Bali Albert Banchs Puneet Bansal Paolo Baracca Nicolas Barati Javier Barria Pavlos Basaras Manijeh Bashar Mohamad Baydoun Suzan Bayhan

Norman Beaulieu Tim Becker Zdenek Becvar Luca Bedogni Aydin Behnad Albert Bel Boris Bellalta Paolo Bellavista Evgeny Belyaev Francesco Benedetto Anass Benjebbour Elhadj Benkhelifa Mouncef Benmimoune Mehdi Bennis Sergio Bermudez Luis Bernardo David Bevly

André-Luc Beylot Sudeep Bhattarai Suzhi Bi Massimiliano Biagini Oded Bialer Francisco Blánquez-

Casado Zarah Bleicher Fred Block Stefan Boecker Luciano Bononi Carlo Borgiattino Alireza Borhani Siddhartha Borkotoky Mladen Botsov Hanen Bouhadda Khaled Boussetta


Elif Bozkaya Glauber Brante Torsten Braun Volker Braun Cesar Briso Luigi Bruno Raffaele Bruno Armir Bujari M. Majid Butt Daniel Calabuig Maria Calderon Marcello Caleffi Joseph Camp Claudia Campolo Berk Canberk Jean-Pierre Cances Roberto Canonico Aijun Cao Carlo Capsoni Paolo Casari Roberto Cascella Claudio Casetti Dajana Cassioli Julio Castro Kardelen Cepni Francisco Cercas Julio Cesar Sandra L. Céspedes Youssef Chahibi Tumula V. K.

Chaitanya Benoit Champagne Terence Chan Kishor Chandra Vikram A.

Chandrasetty Nestor

Chatzidiamantis Periklis Chatzimisios Jimmy Chau Shailesh Chaudhari Elias Chavarria Reyes Olfa Chebbi Ali Chelli Bin Chen Hongyi Chen Jun Chen Li Chen Liang Chen Lin Chen Si Chen Xianfu Chen Yanying Chen Yuh-Shyan Chen Yunfei Chen Julian Cheng Lei Cheng Lin Cheng Yu-Yi Cheng Véronique Cherfaoui Chu Thi My Chinh Jonathan Chisum Eddy Chiu Jihwan Choi Sangwon Choi Dimitrios

Christopoulos Liang Chu Yi Chu Wei-Ho Chung Raul Gomez Cid-

Fuentes Robert Cioffi Massimo Condoluci Justin Coon German Corrales

Madueno Alan Coulson Marilia Curado Sam Curry Rui Dai Bruno Dalmazo Armin Dammann Claude D'Amours A. Danaee Ngoc-Dung Dao Khalid A. Darabkh Luiz DaSilva

Eftychia Datsika Antonio de la Oliva Isabel Delgado Paolo Delle Site Margot Deruyck Umamaheswari C

Devi Chen Di Gerardo Di Martino Marco Di Felice Marco Di Renzo Stefan Dietzel Nikos Dimitriou Ergin Dinc Dinhvan Rui Dinis Rui Dinis Pascal Djiknavorian Pawel Dmochowski Ciprian Dobre Ognjen Dobrijevic Kutluyil Dogancay Marco Dolfi Anming Dong Wei Dong Hossein Doroud Nabil Drawil Achim Dreher Pengyuan Du Yongjiu Du Bertrand Ducourthial Jared Dulmage Trung Q. Duong Greg Durgin Yunus Durmus Ayan Dutta Alex Dytso David Eckhoff Miguel Eguizabal Noha El Gemayel Salah Eddine Elayoubi Hany Elgala Mohammed El-Hajjar Petros Elia Maged Elkashlan Jason Ellis Ahmed Elsherif Samy El-Tawab Claudio Enrico Palazzi Milan Erdelj Muge Erel Tolga Eren Moez Esseghir Carla Fabiana

Chiasserini Nicolo Facchi Marcos Fagundo

Caetano Erez Falkenstein Jiancun Fan Rui Fan Ezzeddine Fatnassi Kassem Fawaz Akmal Fayziyev Serge Fdida Guillem Femenias Puchun Feng Jose Angel Fernandez

Segovia Herman Fernández Andreas Festag Gerhard Fettweis Felipe Figueiredo Marco Fiore Koorosh Firouzbakht Georg Fischer Mathias Fischer Chuan Heng Foh Javier R. Fonollosa Oriol Font Luca Foschini Bo Fu Hua Fu Weihuang Fu Masahiro Fujii Joseph Gaeddert Malgorzata Gajewska Ana Galindo-Serrano

Carlo Galiotto Frank Ganaden Ivan Ganchev Hui Gao Andrés Garcia

Saavedra Jose Angel Garcia Johan Garcia Ana García-Armada Mario Garcia-Lozano José-María Molina

García-Pardo John Gass Mengyao Ge Amin Ghazanfari Puya Ghazizadeh Mozhdeh Gholibeigi Chittabrata Ghosh Khanh Tran Gia Giovanni Giambene Ramy H. Gohary Gökçe Gökkoca Robert Golshan Jesús Gómez Felipe Gómez-Cuba David González G Lorena González-

Manzano Ana I. González-

Tablas Lenin Gopal Ali Gorcin Maria Gorlatova Siddhartan

Govindasamy Marco Gramaglia Maria Gregori Francesco Gringoli Paul Groves Peng Guan Raoul Guiazon Eros Gulo Fredrik Gunnarsson Deke Guo Hongzhi Guo Jian Guo Yinghao Guo Gurkan Gur Sudarshan

Guruacharya David M. Gutierrez

Estevez Miguel Gutierrez Majed Haddad Zoran Hadzi-Velkov Lars Haering Abdelhakim Hafid Afshin Haghighat Ali A. Haghighi Eric Hall Rami Hamdi Chong Han Hu Han Katsuyuki Haneda Hamza Harkous Hany Hassan Bing He Qinwei He Yu-Cheng He Chris Headley Robert Heath Jan Hejtmanek Miroslav Hekrdla Horst Hellbrück Ibrahim A. Hemadeh Michael Hempel Prasanna Herath Cristian Hernandez Ángela Hernández-

Solana Daniel F. Herrera Vega Martin Heusse James Hicks Guido R. Hiertz Teruo Higashino Kenichi Higuchi Paul Ho Laurens Hobert

Daesik Hong Yi Hong Md Farhad Hossain Xiaolin Hou Dung-Rung Hsieh Jason Hsu Qiang Hu Sanqing Hu Su Hu Yulin Hu Everest Huang Jacob Huang Wenchao Huang Xiaojing Huang Chris Hudson Karin Hummel Li-Ling Hung Dinh Thuy Phan Huy Tomas Hynek Shinsuke Ibi Christoph Ide Aissa Ikhlef Salama Ikki Christos Ilioudis Muhammad Ali Imran Koji Ishibashi Koichi Ishihara Naoki Ishikawa Naosuke Ito Issam Jabri Crystal Jackson Saber Jafarizadeh Vahid Jamali Abbas Jamalipour Carl James Debono Prabhu Janakaraj John Janeski Yaser Jararweh Aman Jassal Sudharman K.

Jayaweera Zina Jerjees Yalei Ji Bin Jia Hua Jiang Yonghang Jiang Zhang Jianhua Zhang Jianwen Hao Jin Jingon Joung Wang Jue Markku Juntti Hadhami kaabi Alexandros Kaloxylos Jee Eun (Jamie) Kang Yanrong kang Burak Kantarci Vasileios M. Kapinas Georgios Karagiannis Amir Karamoozian Yoshio Karasawa Prasanth Karunakaran Mohammad Karzand Abdallah Kassem Andreas Kassler Dimitrios Katsaros Dennis Kaulbars Ali Asghar Pourhaji

Kazem JaWone Kennedy Ohara Kerusauskas

Rayel Ehdieh Khaledian Al-Sakib Khan Pathan Dongku Kim Wooseong Kim Joon Young Kim Youngok Kim Mak King Mustafa Kishk Tomoya Kitani Florian Klingler Eleftherios Kofidis Chuili Kong Volker Köster Yevgeni Koucheryavy Polychronis Koutsakis Erdem Koyuncu

Ioannis Krikidis Witold A. Krzymien Sebastian Kühlmorgen Hovannes Kulhandjian Mandar Kulkarni Pavan Kumar K Ernest Kurniawan Martin Kurras Katsutoshi Kusume Hyuck M. Kwon Kyoomars Argyrios Kyrgiazos Mihir Laghate Eva Lagunas Eeva Lähetkangas Moshe Laifenfeld Ingmar Land Nadav Lavi Fotis Lazarakis Didier Le Ruyet Anh Duc Le Gottfried Lechner Ahyoung Lee Kyungchun Lee Namyoon Lee Seunghyun Lee Wonju Lee Woongsup Lee James Leight Florian Lenkeit Jordan LeNoach Ricardo Lent Michael Lentmaier David Lerner Toni Levanen Chang Li Chuxiang Li Ding Li Guoxin Li Hebi Li Jiandong LI Jingchao Li Min Li Rui Li Shuangjiang Li Wenjia Li Wu Li Xuan Li Yang Li Yuanlong Li Zan Li Keun-Woo Lim Cen Lin Hai Lin Huifa Lin Jiun-Ren Lin Shih-Chun Lin Tao Lin Yun Lin Yun-Wei Lin Ren-Huang Liou Thomas DC Little Benyuan Liu Haijing Liu Haoxiang Liu Hongwu Liu Jian-Hui Liu Juan Liu Junyu Liu Liang Liu Qingzhi Liu Shuiyin Liu Tang Liu Yinjun Liu Yu Liu Gianluigi Liva Ignacio Llatser Brandon Lo Mike Lockard Murilo Loiola Waslon Terllizzie A.

Lopes F. Javier Lopez

Martinez Miguel López-Benítez Flavio Lorenzelli Li Lu Liru Lu

Lu Lu Pan Lu Wei Lu Zongqing Lu Daniel Lucani Volker Luecken Erik T. Lundberg Henrik Lundqvist Jie Luo Yaming Luo Ping Lv Bojiang Ma Hsi-Pin Ma Shuang Ma Thomas G. Macdonald Andreas Maeder Amer Magableh Maurizio Magarini Chinmaya Mahapatra Nurul Huda Mahmood Guilherme Maia Francesco Malandrino Mehdi Maleki Malik Madhabi Manandhar Victoria Manfredi Konstantinos

Manolakis Mohammad Mansour Pietro Manzoni Andrew Marcum Anna Maria Vegni Francesco Marino Angelos Marnerides Antonio G. Marques Ian Marsland Jim Martin Francisco José

Martínez Zaldivar Francisco J. Martin-

Vega Barbara Masini Nitin Maslekar Ahmed Masmoudi Gianluca Massei George Mastorakis David Matolak Constandinos

Mavromoustakis Robby McKilliam Jonas Medbo Rui Meireles Wu Meng Chris Merlin Oleg Mezentsev Diomidis S.

Michalopoulos Jan Mietzner Mattia Minelli Wu Ming-Wei Marco Miozzo Josep Miquel Jornet Zeeshan Hameed Mir Paul D. Mitchell Jens Mittag Teruyuki Miyajima Zoubeir Mlika Rami Mochaourab Marina Mocker Moety Hossein Moghaddam Sangman Moh Ali Mohamed Ali Moharrer Shahram Mohrehkesh Tony Moldovan Hassan Moradi Lizdabel Morales Simone Morosi Gregory Morozov Carlos Mosquera Ayman Mostafa Mohamed M. A.

Moustafa Alireza Movahedian Mohammad Mozaffari Mroueh Lorenzo Mucchi

Andreas Mueller Amitav Mukherjee Olga Muñoz Hafiz Atta Ul Mustafa Diala Naboulsi Apollinaire

Nadembega Meisam Naderi Yousof Naderi Masaaki Nagahara Bilal Naqvi Robayet Nasim Youssef Nasser Enrico Natalizio Lakshmi Natarajan Galymzhan

Nauryzbayev Keivan Navaie Monica Navarro Arye Nehorai Mehran Nekuii Derrick Wing Kwan

Ng Hien Q. Ngo Duy T. Ngo Duy Nguyen Lan Nguyen Thi Mai Trang

Nguyen Tri Nguyen Raheleh Niati Monica Nicoli Nikolaos Nomikos Dan Noneaker Alessandro Nordio Konstantinos Ntontin Georgia Ntouni Loutfi Nuaymi Maddalena Nurchis Asanka Nuwanpriya Hideki Ochiai Claude Oestges Tomoaki Ohtsuki Maria Oikonomakou Eiji Okamoto Robert L. Olesen Rodolfo Oliveira Antonino Orsino Yacine Oussar Berna Ozbek Mustafa Ozger Pasquale Pace Evangelos Pallis Sooksan

Panichpapiboon George Pantos Stelios Papaharalabos Apostolos

Papathanassiou Stefano Paris Alessandra Pascale Panagiotis Paschalidis Carla Passiatore Paul Patras Matthias Pätzold Luigi Paura Miquel Payaro Tommaso Pecorella Jinlin Peng Qihang Peng Carlos Pereira Ana Isabel Perez-

Neira Jordi Perez-Romero Antonio Pescapè Jonathan Petit Stephan Pfletschinger Khanh Pham Tal Philosof Massimiliano Pierobon Daniele Pinchera Giuseppe Piro Mylene Pischella Sara Pizzi Petar Popovski Charly Poulliat Wahyu Pramudito Javier Prieto


Greg Prince Basuki E. Priyanto Pavel Prochazka Ioannis Protonotarios Constantinos Psomas Daniele Puccinelli Juha Pyhtila Yinan Qi Xiangjun Qian Zhijin Qin Yang Qu Christer Qvarfordt Jovan Radak Michael Rahaim Muhammad Mahboob

Ur Rahman Veselin Rakocevic Sushanta Mohan

Rakshit Alejandro Ramirez Raymundo Ramirez

Gutierrez Alessandro Raschellá Lars Rasmussen Ronald Raulefs Danda B Rawat Anjan Rayamajhi Adeel Razi Jeffrey Reed Aaron Reid Julien Renard Olivier Renaudin Fahimeh Rezaei Alberto Rico-Alvarino Felip Riera-Palou Niky Riga Taneli Riihonen André Riker Jukka Rinne Antonio Rodrigues Hendrik Rogier Greg Romaniak Bashar Romanous Francisco Rosário Juan Rosell-Ortega Kaushik Roy

Chowdhury Tommy Royster Lorenzo Rubio Arjona Giuseppe Ruggeri Harlan Russell Pouriya Sadeghi Onur Sahin

Pratap Sahu Thomas Salzer Andawattage

Samarasekera A. Chaminda J.

Samarasekera Yusuf A. Sambo Yukitoshi Sanada Matilde Sanchez João Sande Lemos Luca Sanguinetti José Sanguino Yousuke Sano José Santa Anne Savard Vladimir Savic Mamoru Sawahashi Amedeo Scarpiello Sebastian

Schellenberg Björn Scheuermann Eryk schiller Manuel Schiller Philipp Schläfer Christoph Schmitz Christopher Schnelling Robert Schober Florian Schweikowski Riccardo Scopigno Kevon Scott Gokhan Secinti Hichem Sedjelmaci Anand Seetharam Tobias Seifert Ahmed Selim Ivan Seskar Oyunchimeg Shagdar Shahriar Shahbuddin Chowdhury Shahriar Shree Krishna Sharma Mona Shemshaki Chong Shen Bo Sheng Behailu Y. Shikur Veronika Shivaldova Zhihui Shu Osvaldo Simeone Meryem Simsek Sarabjot Singh Sudhir Singh Rajendra Prasad

Sirigina Isaac Skog

Dirk T.M. Slock Besma Smida Ramin Soltani Christoph Sommer Xuegui Song Yi Song Oussama Soualah Ivo Sousa Richard Demo Souza Tolga Soyata Mujdat Soyturk Gokul Sridharan Razvan Stanica Sebastian Stern Marc St-Hilaire Reinhard Stolle Domenico Striccoli Erik Ström Lucio Studer Ferreira Qinliang Su Yi-Sheng Su Young-Joo Suh Boyuan Sun Hongguang Sun Hua Sun Li Sun Shunqiao Sun Songlin Sun Zhi Sun CW Sung Himal Suraweera Navod Suraweera Satoshi Suyama Joseph Tabrikian Yahia Tachwali Mikhail Tadjikov Mostafa Anwar Taie Satoshi Takahashi Kazuki Takeda Osamu Takyu Salvatore Talarico Ho H.M. Tam Beng Soon Tan Xin Tan Zhenzhou Tang Huque Tanvir Hidekazu Taoka Alberto Tarable Daniele Tarchi Harsh Tataria Mohamad Tavakoli Werner G. Teich Kemal Tepe

Fernando Terroso-Saenz

Tu Lam Thanh Bishal Thapa Fabrice Theoleyre Boon Sim Thian Do Phu Thinh Reiner Thomä William Thompson Shixin Tian Shuang Tian Xin Tian Rafael Toledo Stefano Tomasin Andrea Tomatis Patrick Tooher Dimitris Toumpakaris Duc Tran Trung Duy Tran Jason Tran Xuan Nam Tran Imen Triki Angelo Trotta Florian Tschorsch Theodoros Tsiftsis Charalampos C.

Tsimenidis Eirini-Eleni

Tsiropoulou Timothy Turk Benito Úbeda Shusaku Umeda Takaaki Umedu Sandesh Uppoor Tomas Uricar Vutha Va Reza Monir Vaghefi Jose Vallet Ellen van Nunen Mai Van Vien Rens van der Heijden John Vardakas Francisco Vazquez Mikko Vehkaperä Venkatkumar

Venkatasubramanian Bart Vermeulen Jonathan Vestin Carlos Alberto Vieira

Campos Quoc-Tuan Vien João Vilela Massimo Villari

Alexey Vinel Giorgio Vitetta Ada Vittoria Bosisio Anna Vizziello Elvis Vogli Triet Vo-Huu Jens Voigt Aida Vosoughi Brett T. Walkenhorst Chuang Wang Y.-P. Eric Wang Gang Wang Hai Wang Jiliang Wang Liming Wang Min Wang Nan Wang Qing Wang Rui Wang Shipeng Wang Shiqiang Wang Tong Wang Wenhao Wang Xianmin Wang Xiaoyi Wang Xijun Wang Xin Wang Xinhua Wang Yajun Wang Yi Wang Yu Wang Yuanjie Wang Yuhong Wang Zhonghai Wang Chirag Warty Chun-Yi Wei Xusheng Wei Anthony J. Weiss Richard B. Wells Chao-Kai Wen Miaowen Wen Qingsong Wen Michelle Wetterwald Younghoon Whang Risto Wichman Christian Wietfeld Brian Wolf Matthias Woltering SeungHwan Won David Tung Chong

Wong Tan Wong Celimuge Wu

Di Wu Gang Wu Jinsong Wu Jiyan Wu Peiran Wu Qiong Wu Yik-Chung Wu Yongpeng Wu Dirk Wübben Wei Xi Shuang Xia Tian Xia Xingyu Xiang Sa Xiao Yue Xiao Bei Xie Chengwen Xing Hong Xing Pengbo Xing Chao Xu Chenguang Xu Xu Jie Jing Xu Ran Xu Xiaoli Xu Animesh Yadav Takayuki Yamada Chaoxing Yan Yubo Yan Hengzhao Yang Janghoon Yang Hyun Jong Yang Kai Yang Liang Yang Lie-Liang Yang Nan Yang Ping Yang Wei Yang Zheng Yang Kazuto Yano Huan Yao Muhammad Yasir Yunfan Ye Phee Lep Yeoh Na Yi Turker Yilmaz Bei Yin Zhinong Ying Jia You Jie You Saleh Yousefi Shahram Yousefi Bo Yu

Rong Yu Xuehong Yu Zhiyuan Yu Haifeng Yuan Chau Yuen Melda Yuksel Alenka Zajic Thomas Zaksek Andreas Zalonis Lotfi Zaouche Alessio Zappone Nicola Zema Jiaan Zeng Hans-Jürgen

Zepernick Andrew Zhang Bo Zhang Chao Zhang Chuanji Zhang Feixiang Zhang Haijun Zhang Hang Zhang Huazi Zhang Jiankang Zhang Lan Zhang Lei Zhang Li Zhang Meng Zhang Qixun Zhang Shanfeng Zhang Shanfeng Zhang Shuowen Zhang Weiwen Zhang Xin Zhang Xing Zhang Zhaoyang Zhang Zhangjun Kanglian Zhao Wang zhaoyue Guanbo Zheng Kan Zheng Naizheng Zheng Guangxia Zhou Ruolin Zhou Xia Zhou Xun Zhou Guangxu Zhu Milan Zivkovic Enrica Zola Nizar Zorba André Zúquete

Registration

Registration will take place in the Harbor Ballroom Foyer on Level 2 of the hotel. Registration times are as follows: • Sunday, 6 September 2015 07:30 – 17:30 • Monday, 7 September 2015 07:30 – 17:30

• Tuesday, 8 September 2015 08:00 – 17:30 • Wednesday, 9 September 2015 08:00 – 16:00

After 18:00 on Sunday, you may pick up your badge and tickets at the reception held at the hotel’s Saucity Restaurant – bags can be picked up on Monday. (Your registration receipt is required to pick up your registration at the reception.)

Breaks

Coffee breaks will take place in the Marina Foyer on Sunday and the Harbor Ballroom foyer on Monday, Tuesday and Wednesday.

Social Events

Lunches are included as part of the full registration and will be served in the Harbor Ballroom 1, 2 & 3. The reception will be conducted on Sunday evening. A ticket is required for entry and the tickets are a part of your registration package.

The Boston Harbor cruise and banquet on the evening of Monday 7 September 2015 will be at the World Trade Center Dock. Boarding will begin at 18:00 and the boat leaves the dock at 18:45. The evening will begin with a viewing of the harbor followed by a New England lobster dinner on board. The dock is a short walk from the Westin Hotel.


Lunches, the reception and banquet require admission tickets and these are included in your registration packet to gain entry. Be sure to present the correct day’s lunch ticket or you will not be served. You also may purchase tickets for these events at the registration desk. On Tuesday September 8, a special reception will be held for VTS members as an expression of our appreciation for their membership and involvement in our activities. This serves as an opportunity for the VTS members to meet and network with the members of the Board of Governors and with other VTS members.

You may join VTS during the conference to receive member benefits and attend the Members’ Reception. Visit http://join.vtsociety.org and print or show a copy of your receipt to the Registration Desk to get a member ribbon.

Patrons and Exhibitors

IEEE VTS would like to thank the following patrons and exhibitors for their support for the conference.

Gold Patron and Exhibitor Gold Patron and Exhibitor

Media Tek

Workshop Patron and Exhibitor

Analog Devices, Inc

Bronze Patron

National Instruments

TELUS

Exhibitors

Azimuth Systems, Inc. BEEcube, Inc MathWorks


Plenaries Monday 7 September 2015, 9:00–9:45 (Harbor Ballroom 1, 2 & 3) A Historical Perspective on the Evolution of the Technology and Market of Wi-Fi Kaveh Pahlavan, Director of Center for Wireless Information Network Studies, WPI This lecture provides a historical perspective on evolution of technology and market around the Wireless Local Area Networks (WLAN), commercially known as Wi-Fi. Evolution from a struggling industry in early days for Ethernet cable replacement in offices and manufacturing floors to today’s most popular wireless access and localization technology for SOHO coverage, smart phones, tablets and consumer products. It also addresses how innovative technologies such as optical wireless, mmWave, spread spectrum, OFDM and MIMO first were discovered for WLAN and then evolved into cellular networking industry? Finally the lecture points at the future anticipations for large scale deployment of Wi-Fi networks, AP sharing and emergence of cable companies as wireless providers, temporary deployments for overly populated occasions, wide and inexpensive coverage of remote areas and the emergence of Wi-Fi in VANET industry. It explains how Wi-Fi on the Drones, Balloons and even pigeons are considered to extend the coverage of WiFi for inexpensive wireless access and localization and to enable myriad of new applications. Kaveh Pahlavan is a Professor of ECE, a of CS, and Director of the Center for Wireless Information Network Studies, Worcester Polytechnic Institute, Worcester, MA. He is the founder and Editor-in-Chief of the International Journal on Wireless Information Networks and a member of the advisory board of the IEEE Wireless Magazine. He has founded and chaired a number of pioneering international conferences in wireless networking. He has been a Westin Hadden Professor of Electrical and Computer

Engineering at WPI, a fellow of the IEEE, a fellow of the Nokia, a Fulbright-Nokia scholar and recipient of the Board of Trustees Award for Outstanding Research and Creative Scholarship at WPI. He has been involved in research and entrepreneurship in WLAN access and localization for over four decades and has written several books and numerous papers and patents on thetopic

Monday 7 September 2015, 9:45–10:30 (Harbor Ballroom 1, 2 & 3) Quantum-Wireless: A “Spooky Phenomenon at a Distance” or a Potent Wireless Tool Dr Einstein? Lajos Hanzo, Professor of Electronics and Computer Science, Southampton University Since Marconi demonstrated the feasibility of radio transmissions, researchers have endeavoured to fulfill the dream of flawless wireless multimedia telecommunications, creating the impression of tele-presence – at the touch of a dialling key... However, making this dream a reality required ‘quantum’ leaps both in digital signal processing and in its nano-electronics based implementation, facilitated by advances in science. This process has been fuelled by a huge consumer market. Moore’s laws has indeed prevailed since he outlined his empirical rule-of-thumb in 1965, but based on this the scale of integration is set to depart from classical physics obeying the well-understood rules revealed by science and enter into a new world, where the traveller has to obey the sometimes strange new rules of the quantum-world. The quest for quantum-domain communication solutions was inspired by Feynman’s revolutionary idea in 1985: particles such as photons or electrons might be relied upon for encoding, processing and delivering information. During the last three decades researchers and engineers often considered a pair of open problems. Firstly, classic systems relying on the efficient processing capability of quantum-search algorithms were considered in the area of quantum-assisted communications, while the branch of quantum-domain communications relies on quantum channels constituted by the deleterious effects of the environment perturbing the quantum-state of particles. In wireless communications we often encounter large-scale search problems, some of which may be efficiently solved with the aid of bio-inspired random guided algorithms or quantum-search techniques. For example, Grover’s algorithm is capable of searching through an N-element data-base with the aid of square-root N cost-function evaluations. Commencing with a brief historical perspective, a variety of efficient quantum-assisted solutions will be exemplified. Lajos Hanzo, FREng, FIEEE, FIET, EURASIP Fellow, RS Wolfson Fellow, received his 5-year Master degree in electronics from the Technical University of Budapest in 1976, his doctorate in 1983 and his Doctor of Sciences (DSc) degree in 2004. He received honorary doctorates from the University of Edinburgh and Budapest. During his career in telecommunications he has

held various research and academic posts in Hungary, Germany and the UK. Since 1986 he has been with the School of ECS, University of Southampton, UK, where he holds the Chair in Telecommunications. He co-authored 20 IEEE - John Wiley books and 1500+ IEEE Xplore contributions. His current research interests are featured at http://www-mobile.ecs.soton.ac.uk


Tuesday 8 September 2015, 9:00–9:45 (Harbor Ballroom 1, 2 & 3) SDN/NFV enabling future Carrier Networks Gagan Puranik, Head of Network Planning Architecture, Verizon SDN and NFV initiatives are important to Verizon and other network operators because we are seeing demand for increased bandwidth without corresponding increases in revenues. Consumers of that bandwidth aren't necessarily willing to pay more for it. The traditional ways of building networks, using purpose-built hardware in networks engineered for peak traffic demand, don't work in this new paradigm. This paradigm shift affects many operators and suppliers; therefore the solutions necessary to drive the technological shift must be well coordinated. Having a standard version of SDN is “a prerequisite” to deployment, because Verizon needs to be sure that whatever it deploys can interoperate not only with other pieces of its network but also future networks. This multi-year effort is designed to allow Verizon and its partners to be far more efficient, resilient, and dynamic with its service offerings through: (i) An increased reliance on software, not dedicated HW; (ii) More frequent deployment of new services through small scale trials and shorter release cycles; (iii) Embracing a “fail fast” mentality that will allow VZ and its partners to take smart risks, and pivot quickly in those instances where we don’t exactly hit the mark At Verizon this technology shift will include: Hardware-software separation; User plane - control plane separation; Automated FCAPS; Micro releases; Automated testing/deployment; Real-time automated resource management - configuration and capacity management; Network programmability via open APIs. Gagan Puranik is Director of Software Defined Network (SDN) Architecture Planning for Verizon. He is responsible for collaborating with wireless, wireline, and capital planning teams on all functional and service level migrations tied to a software-based architecture. This includes strategic design standards implementation, and industry engagement. Over his last 18 years with Verizon, Gagan has held numerous leadership positions in various parts of the business. Gagan’s most recent assignments include leading Verizon’s Phase 4 LTE Trials,

which took place in Boston, and helping to foster the rapid adoption of LTE at Verizon's Innovation Centers, which are designed to spur the growth of new business. Gagan has been issued 5 US patents. He earned a Bachelor’s Degree in Computer Engineering from University of Mysore, India and a Master’s Degree in Computer Science from Mississippi State University. He earned his MBA from Belhaven University and attended “Leading Product Innovation” from Harvard Business School.

Tuesday 8 September 2015, 9:45–10:30 (Harbor Ballroom 1, 2 & 3) 5G Wireless Technologies Wen Tong, CTO, Huawei Wireless Wen Tong is the Head of Wireless Research, the Communications Technologies Laboratories, and the Huawei 2012 Lab and is a Huawei Fellow. Prior to joining Huawei in March 2009, Dr. Wen Tong was the Global Head of the Network Technology Labs at Nortel and the Nortel Fellow. He received the M.Sc. and Ph.D. degrees in Electrical Engineering in 1986 and 1993 and joined the Wireless Technology Labs at Bell Northern Research in 1995 in Canada. He has pioneered fundamental technologies in wireless with 210 granted US patents. Dr. Tong was Nortel’s Most Prolific Inventor. Dr. Tong has conducted the advanced research work spanning from 1G to 4G wireless at Nortel. He had been the director of Wireless Technology Labs from 2005 to 2007. From

2007 to 2009, Dr. Tong was the head of Network Technology Labs, responsible for Nortel’s global strategic technologies research and development. In 2007, Dr. Tong was inducted as Nortel Fellow. Since 2010, Dr. Tong is the vice president and head of Huawei wireless research leading one of the largest wireless research organizations in the industry with more than 700 research experts. In 2011, Dr. Tong is appointed the Head of Communications Technologies Labs of Huawei 2012 LAB, a corporative centralized next generation research initiative. In 2011, Dr. Tong was elected as Huawei Fellow. Dr. Tong serves as Board of Director of WiFi Alliance and Board of Director of Green Touch Consortium.

Wednesday 9 September 2015, 9:00–9:45 (Harbor Ballroom 1, 2 & 3) When a Car and a Plane Combine… Certain Restrictions Apply Kevin Colburn, COO, Terrafugia Terrafugia is developing two distinct products. The Transition®, which we aim to have in production in the next few years, is a two-seat, Light Sport Aircraft that can be driven from the arrival airport to your final destination. It addresses the general aviation pilot’s biggest usage problems – weather sensitivity, cost and convenience of ownership, and door-to-door travel time – but designing a product for both runways and roads poses a host of challenges. Factors like weight, cost, crash safety, and flight characteristics, not to mention the regulations of two federal agencies, must be balanced and addressed with engineering solutions. In some cases the answers are available in a catalog, but in other cases, we take inspiration from both the aviation and automotive worlds and do it our own way.


We are leveraging experience from the Transition® development to address the technical integration and regulatory challenges of the second product, the TF-X™, which is currently in concept development. The TF-X™ will be a four-seat, plug-in hybrid-electric vehicle that will feature vertical takeoff and landing, so no airports or runways will be needed. It will also leverage the emergence of the Automatic Dependent Surveillance–Broadcast (ADS-B) system, in which an aircraft uses WAAS/SBAS GPS technology to broadcast its location, airspeed, heading, and other data for long-range collision avoidance, as well as onboard sense-and-avoid systems for short-range avoidance. Such significantly improved situational awareness will enable the TF-X™ to be semi-autonomous – to the extent that we envision that the operator will not need a pilot’s license at all. Kevin Colburn is Chief Operating Officer and VP Engineering at Terrafugia. He has developed deep experience in program management and team leadership across a variety of industries, from hybrid-electric vehicles to consumer products. Kevin has achieved Six Sigma and Professional Engineer certifications, has built and motivated strong teams, and has been a key player in the

launch of complex products in multiple industries. He also has start-up experience as a co-founder of Orca Energy, SL, and in management positions at Azure Dynamics and Blu Homes. He holds an M.S. in Mechanical Engineering from the University of California, Davis, and a B.S. in Mechanical Engineering from Clemson University.

Wednesday 9 September 2015, 9:45–10:30 (Harbor Ballroom 1, 2 & 3) Transportation and Public Safety Communications Barry Einsig, Global Public Sector and Transportation Executive, Cisco Barry Einsig is the Global Transportation Executive for Cisco’s Connected Industries Group, responsible for two market categories: Transportation and Public Safety Communications. With a broad experience in the Transportation market, Barry has been in the industry for over 11 years serving in a variety of roles providing wireless communications networks, video, security and life safety systems for Transportation networks. Some of the authorities Barry has worked with include the Washington Metropolitan Area Transit Authority, MTA Maryland, SEPTA, AMTRAK, DART, PA Turnpike, Penn DOT as well as others. He is an active member of the American Public Transportation Association, Association of American Railroads Wireless

Communications Committee, and the Intelligent Transportation Society of America. Within APTA, he is Wireless Communications Committee Chair and the Research and Technology Communications Subcommittee Past Chair. Barry is also active in the Transportation Sector Coordinating Council, APTA Security Standards development, and the Committee on Public Safety. He earned a BA in Environmental Biology from Juniata College and has written for many industry publications. Barry has presented at International Conferences such as IWCE, APCO, ITSA, APTA, and ITS World Congress, on topics including security, wireless communications networks and Intelligent Transportation System.

Tutorials

A range of tutorials will be held throughout the conference given by experts from industry and academia. Sunday, 6 September 2015, 13.30 – 17.00 Marina Room 1 T2: 4G and Beyond: LTE and LTE-Advanced Hyung G. Myung, Qualcomm

The current 3rd generation (3G) cellular wireless systems have evolved into 4th generation (4G) and Long Term Evolution (LTE) developed by 3GPP has become the de facto global 4G standard. In terms of air interface techniques, LTE system uses OFDM-based multicarrier modulation, MIMO techniques, and other advanced features to greatly improve the mobile wireless services. In this tutorial, we first survey the underlying techniques of the 4G systems such as OFDMA, SC-FDMA, MIMO, and fast multi-carrier resource scheduling. Then, we give technical overview of LTE and LTE-Advanced. We also survey upcoming beyond-4G technologies.

Dr. Hyung G. Myung is currently with Qualcomm, San Diego, USA

since 2007. He received the B.S. and M.S. degrees in electronics engineering from Seoul National University, South Korea in 1994 and in 1996, respectively, and the M.S. degree in applied mathematics from Santa Clara University, California in 2002. He received his Ph.D. degree from the Electrical and Computer Engineering Department of Polytechnic University, Brooklyn, NY in January of 2007. From 1996 to 1999, he served in the Republic of Korea Air Force as a lieutenant officer, and from 1997 to 1999, he was with Department of Electronics Engineering at Republic of Korea Air Force Academy as a faculty member. From 2001 to 2003, he was with ArrayComm, San Jose, CA as a software engineer. During the summer of 2005, he was an assistant research staff at Communication & Networking Lab of Samsung

Advanced Institute of Technology. Also from February to August of 2006, he was an intern at Air Interface Group of InterDigital Communications, Melville, NY. His research interests include DSP for communications and wireless communications, and he is the co-author of the book Single Carrier FDMA: A New Air Interface for Long Term Evolution (2008) from Wiley.

Sunday, 6 September 2015, 8.30 – 12.00 Marina Room 1 T3: Near-Capacity Wireless Multimedia Design and Streaming for 5G Lajos Hanzo, University of Southampton

In the multimedia era we live in much of the tele-traffic is generated by smart phones and tablet computers exchanging high-quality, high-rate video signals, which is responsible for the data-Tsunami we experience. This trend is set to continue during the ensuing 5G era and hence the high-compression yet error-resilient streaming of multimedia signals is of prime importance. Fortunately, most multimedia source signals are capable of tolerating lossy, rather than lossless delivery to the human eye, ear and other human sensors. The corresponding lossy and preferably low-delay multimedia source codecs however exhibit unequal error sensitivity, which is not the case for Shannon’s ideal entropy codec. In this research-review a unified treatment of near capacity multimedia communication systems is offered, where we focus our attention not only on source and channel coding aspects but also on their iterative decoding and transmission problems. There is a paucity of up-to-date surveys and tutorials on this important subject, hence this course aims to


fill the related gap. A critical appraisal of source-compression, channel coding transmission and their joint holistic treatment is offered.

Lajos Hanzo (http://www-mobile.ecs.soton.ac.uk) FREng, Royal

Society Wolfson Fellow, FIEEE, FIET, Fellow of EURASIP, DSc received his degree in electronics in 1976 and his doctorate in 1983. In 2009 he was awarded the honorary doctorate “Doctor Honaris Causa” by the Technical University of Budapest. During his 38-year career in telecommunications he has held various research and academic posts in Hungary, Germany and the UK. Since 1986 he has been with the School of Electronics and Computer Science, University of Southampton, UK, where he holds the chair in telecommunications. He has successfully supervised 100+ PhD students, co-authored 20 John Wiley/IEEE Press books on mobile radio communications totalling in excess of 10 000 pages, published 1500 research entries at IEEE Xplore, acted both as TPC and General Chair of IEEE conferences, presented keynote lectures and has been awarded a number of distinctions. Currently he is directing an academic research team, working on a range of research projects in the field of wireless multimedia communications sponsored by industry, the Engineering and Physical Sciences Research Council (EPSRC) UK, the European IST Programme and the Mobile Virtual Centre of Excellence (VCE), UK. He is an enthusiastic supporter of industrial and academic liaison and he offers a range of industrial courses. He is also a Governor of the IEEE VTS. During 2008 - 2012 he was the Editor-in-Chief of the IEEE Press and a Chaired Professor both at Southampton and at Tsinghua University, Beijing. For further information on research in progress and associated publications please refer to http://www-mobile.ecs.soton.ac.uk Lajos has 20 000+ citations.

Sunday, 6 September 2015, 13.30 – 17.00 Marina Room 2 T6: Emerging Concepts and Technologies towards 5G+ Wireless Networks Halim Yanikomeroglu, Carelton University

Enabling a further traffic increase of around 1,000 times, latency reduction of around 100 times, device increase of around 100 times in the next 15 years or so, while no customer is willing to pay more for the wireless pipe itself: the so called “traffic-revenue decoupling”. Moreover, many experts warn that the low-hanging fruits in wireless research (especially in information theory, communications theory, and signal processing) have already been collected. While the research community is full of ideas (as usual), many of these ideas are either not-too-relevant (i.e., not in the bottleneck areas) or they are in areas in which progress toward a tangible implementation is too slow.

The overall goal of the tutorial is to identify the emerging concepts and technologies, and the necessary analytical tools to study them (such as optimization, game theory, dynamic feedback control, and artificial intelligence). Towards that end, a number of important components will be presented in the single coherent framework of 5G cellular networks with a “systems” scope and approach.

Halim Yanikomeroglu was born in Giresun, Turkey, in 1968. He

received the B.Sc. degree in electrical and electronics engineering from the Middle East Technical University, Ankara, Turkey, in 1990, and the M.A.Sc. degree in electrical engineering (now ECE) and the Ph.D. degree in electrical and computer engineering from the University of Toronto, Canada, in 1992 and 1998, respectively.

During 1993–1994, he was with the R&D Group of Marconi Kominikasyon A.S., Ankara, Turkey. Since 1998 he has been with the Department of Systems and Computer Engineering at Carleton University, Ottawa, Canada, where he is now a Full Professor. His research interests cover many aspects of wireless technologies with a special emphasis on cellular networks. He has coauthored about 65 IEEE journal papers, and has given a high number of tutorials and invited talks on wireless technologies in the leading international conferences. In recent years, his research has been funded by Huawei, Blackberry, Samsung, Telus, Communications Research Centre of Canada (CRC), and Nortel. This collaborative research resulted in about 20 patents (granted and applied). Dr. Yanikomeroglu has been involved in the organization of the IEEE Wireless Communications and Networking Conference (WCNC) from its inception, including serving as Steering

Committee Member as well as the Technical Program Chair or Co-Chair of WCNC 2004 (Atlanta), WCNC 2008 (Las Vegas), and WCNC 2014 (Istanbul). He was the General Co-Chair of the IEEE Vehicular Technology Conference Fall 2010 held in Ottawa. He has served in the editorial boards of the IEEE Transactions On Communications, IEEE Transactions On Wireless Communications, and IEEE Communications Surveys & Tutorials. He was the Chair of the IEEE’s Technical Committee on Personal Communications (now called Wireless Technical Committee). He is a Distinguished Lecturer for the IEEE Communications Society (2015-2016) and the IEEE Vehicular Technology Society (2012-2015).

Sunday, 6 September 2015, 8.30 – 12.00 Marina Room 2 T7: Wireless Localization Techniques for Mobile Ad-hoc Networks Seyed A. (Reza) Zekavat (Michigan Tech., USA), and R. Michael Buehrer (Virginia Tech., USA)

Wireless localization has emerging applications in vehicular technologies, smart cities, traffic alert, environment monitoring, and situation awareness. In this half-day tutorial Drs. Zekavat and Buehrer share their years of research and design experience in localization systems. Specifically, they review various positioning techniques, advances in wireless positioning, mobile adhoc networks localization, localization performance analysis, Line-of-sight (LOS) and non-LOS localization, wireless channel and its impact on localization performance, security issues in positioning, indoor positioning, collaborative positioning, fusion algorithms, and design process via Software Defined Radio (SDR). An example of a remote wireless positioning system along with its design approach and challenges will be discussed. Many current and futuristic applications of positioning systems will be presented. Finally the tutorial shares many exciting open problems in the area localization systems. The tutorial is aimed to be interactive similar to a class setting, and designed to transfer a wide spectrum of information on localization.

Dr. Seyed A. (Reza) Zekavat is with Michigan Tech since 2002, where

he is currently a professor. He is the editor of: Handbook of Position Location: Theory, Practice and Advances, published in 2011, by IEEE/Wiley. He is also the author of Electrical Engineering, Concepts and Applications, published in 2012, by Pearson. He has co-authored the books Multi-Carrier Technologies for Wireless Communications, published by Kluwer, and High Dimensional Data Analysis, published by VDM Verlag, ten book chapters, more than 120 Journal and Conference articles and one patent. His research interests are in wireless communications, positioning systems, software defined radio, dynamic spectrum allocation, blind signal separation, beam forming, and feature extraction. Dr. Zekavat is the founder and director of Wireless Positioning Lab of Michigan Tech where research and development of Wireless Positioning systems is ongoing since 2005. The Lab was established with the support of National Science Foundation Information Technology Research for National Priorities and several industries. Dr. Zekavat has presented numerous invited talks on positioning systems at Malaysia, Australia (Sydney, Melbourne, Adelaide, Canberra), and United States (NASA, NIST, CERDEC, etc.). He is the founder/Chair of the IEEE Space Solar Workshop’13-15, and served on the executive committee of many conferences. He is with the Editorial board of IET Wireless Sensor Systems, and Springer International Journal of Wireless Information Networks.

Dr. R. Michael Buehrer joined Virginia Tech from Bell Labs as an Assistant Professor with the Bradley Department of Electrical Engineering in 2001. He is currently a Professor and is member of Wireless @ Virginia Tech, a comprehensive research group focusing on wireless communications. His current research interests include position location networks, localization, direction finding, dynamic spectrum sharing, and cognitive radio, among others. More specifically, Dr. Buehrer has done extensive work in received signal strength and time-of-arrival based device positioning as well as network (i.e., collaborative) positioning. His position location work has been funded by the National Science Foundation, federal laboratories and industrial sponsors. He has also served as an expert witness in position location related patent litigation.


Sunday, 6 September 2015, 13.30 – 17.00 Marina Room 1 T8: Multi-way Full Duplex Communication and Cooperation Aydin Sezgin, Ruhr University Bochum; Anas Chaaban, KAUST

Higher data rates, improved link quality, and low latency are demanded features of a variety of applications in wireless communications nowadays. These demands are however confronted by limitations in the available wireless spectrum and energy storage devices, which poses challenges to researchers and engineers worldwide. Multi-way communication and cooperation (appearing naturally, for instance, body area networks) are two resource-efficient techniques which are potential solutions for the aforementioned challenges in future communication systems (such as 5G and IoT). These techniques benefit from the presence of intermediate nodes acting as relays, which in turn enables the use of modern communication strategies to establish cooperation between several nodes, such as network coding. As a consequence there is an increasing need for the understanding of the fundamental characteristics of multi-way networks and of cooperation. This tutorial sheds light on this topic by reviewing state-of-the-art results on two-way and multi-way relay channels, and discussing opportunities and challenges therein. In addition, some live-demos are shown from the wireless full-duplex testbed illustrating the practical feasibility of full-duplex multi-way communication.

Aydin Sezgin received the Dipl.-Ing. (M.S.) degree in communications

engineering and the Dr.-Ing. (Ph.D.) degree in electrical engineering from the TFH Berlin in 2000 and the TU Berlin, in 2005, respectively. From 2001 to 2006, he was with the Heinrich-Hertz-Institut (HHI), Berlin. From 2006 to 2008, he was a Post-doc and Lecturer at the Information Systems Laboratory, Department of Electrical Engineering, Stanford University. From 2008 to 2009, he was a Post-doc at the Department of Electrical Engineering and Computer Science at the University of California Irvine. From 2009 to 2011, he was the Head of the Emmy-Noether-Research Group on Wireless Networks at the Ulm University. In 2011, he was professor at TU Darmstadt, Germany. He is currently a professor at the Department of Electrical Engineering and Information Technology at Ruhr-University Bochum, Germany.

Aydin is interested in signal processing, communication and information theory with focus on wireless networks. He has published more than 20 journal and 100 conference papers on these topics. He is currently serving as associate editor for IEEE Transactions on Wireless Communications. Aydin is the winner of the ITG-sponsorship award in 2006. He is the first recipient of the prestigious Emmy-Noether grant by the German Research Foundation (DFG) in communication engineering in 2009. He has co-authored a paper that received the best poster award at the IEEE Comm. Theory Workshop in 2011.

Anas Chaaban received his Maıtrise-es-Sciences degree in electronics and his M.Sc. degree in communications technology from the Lebanese University in 2006 and from the University of Ulm (Germany) in 2009, respectively. He received his PhD degree in electrical engineering and information technology from the Ruhr-University of Bochum, Germany, in 2013. During 2008-2009, he was with the Daimler AG research group on machine vision, Ulm, Germany. He was a Research Assistant with the Emmy-Noether Research Group on Wireless Networks at the University of Ulm, Germany, during 2009-2011, which relocated to the Ruhr-University of Bochum, Germany, in 2011. Until 2014, he was with the the institute of digital communication systems in the Ruhr-University of Bochum. He is currently a postdoc at the department of Computer, Electrical and Mathematical Sciences and Engineering at KAUST. His research interests are in the area of network information theory with main focus on relaying and interference management.

Sunday, 6 September 2015, 8.30 – 12.00 Marina Room 3 T9: Full-Duplex Communications for Statistical QoS in D2D and CRNs Based 5G Multimedia Wireless Networks Xi Zhang, Texas A&M University

Full-Duplex Communications recently receive the significant research attention from both academia and industries and has been widely regarded as a promising 5G candidate technique as it can potentially double the

wireless channel communication capacity if self-interference can be sufficiently cancelled or mitigated. This tutorial will address the key issues and challenges, as well as the state-of-the-art theories and techniques for applying full-duplex communications techniques to support statistical delayed-bounded QoS provisioning through spectrum-efficiency optimization over 5G multimedia wireless networks when smartly integrated with other 5G candidates techniques including device-to-device (D2D) and cognitive-radio (CR) based 5G. We will provide attendees with an essential understanding of the current research the full-duplex communications for supporting statistical delayed-bounded QoS provisioning over D2D and cognitive-radio based 5G multimedia mobile wireless networks. We’ll also share our recently developed results and first-hand-experiences with the audience on the investigating the Full-Duplex Communications for supporting Statistical Delay-Bounded QoS provisioning through Spectrum-Efficiency Optimization in D2D and CR based 5G mobile wireless networks under the cross-layer optimization architecture across PHY and MAC layers.

Xi Zhang (http://www.ece.tamu.edu/~xizhang/) received his Ph.D. in electrical engineering and computer science (Electrical Engineering-Systems) from The University of Michigan, Ann Arbor, MI, U.S.A. He is currently a Full Professor and Founding Director of Networking and Information Systems Laboratory, Department of Electrical and Computer Engineering, Texas A&M University. He was with Networks and Distributed Systems Research Department, AT&T Bell Laboratories, Murray Hills, NJ, and with AT&T Laboratories Research, Florham Park, NJ. He has published more than 300 research papers on wireless networks and communications systems, network protocol design and modeling, statistical communications, random signal processing, information theory, and control theory and systems. He received the U.S. National Science Foundation CAREER Award in 2004. He is both IEEE Communications Society Distinguished Lecturer and IEEE Vehicular Technology Society Distinguished Lecturer. He received Best Paper Awards at IEEE GLOBECOM 2014, IEEE GLOBECOM 2009, IEEE GLOBECOM 2007, and IEEE WCNC 2010, respectively. He received TEES Select Young Faculty Award for Excellence in Research from Texas A&M University in 2006. He is serving or has served as Editors for IEEE Transactions on Communications, IEEE Transactions on Wireless Communications, IEEE Transactions on Vehicular Technology, and IEEE Communications Letters; Guest Editors for IEEE Journal on Selected Areas in Communications (J-SAC), IEEE Communications Magazine, IEEE Wireless Communications Magazine. He is serving or has served as TPC Chair for IEEE GLOBECOM 2011, TPC Area Chair for IEEE INFOCOM 2012, General Vice-Chair for IEEE WCNC 2013, TPC Vice-Chair for IEEE CCNC 2013, and many others. He has been invited to give tutorials at IEEE GLOBECOM 2012, Anaheim, CA, USA, IEEE ICC 2010, Cape Town, South Africa, IEEE MILCOM 2011, Baltimore, MD, USA, IEEE MILCOM 2012, Orlando, USA IEEE MILCOM 2013, San Diego, USA, IEEE VTC 2010 Fall, Ottawa, Canada, IEEE VTC 2011 Fall, San Francisco, CA, USA, IEEE WCNC 2015, IEEE MILCOM 2015, etc., and numerous IEEE Distinguished Lecturers’ tutorials talks for both academia and industry audience.

The following tutorials have been cancelled T1: Advanced Charging Solutions for Plug-in Electric Vehicles Alireza Khaligh, University of Maryland, College Park

T4: Towards the Vehicular Cloud: From Connected Cars to Smart Cities Falko Dressler, University of Paderborn

T5: Information Centric Networks: Issues and Opportunities in Vehicular Networks Cedric Westphal, Huawei/UCSC & Giovanni Pau UCLA/UPMC

T10: Wideband Spectrum Knowledge Acquisition in Cognitive Radios: Signal Processing and Machine Learning Sudharman K. Jayaweera, University of New Mexico

T11: Dedicated Short Range Vehicular Communications: Overview, Technical Challenges, and Applications John B. Kenney & Gaurav Bansal, Toyota InfoTechnology Center


Industry Track Monday 7 September 2015, 14:00–15:30 (Burroughs) K2: 5G-PPP METIS-II: Key aspects of 5G RAN design Moderator: Patrick Marsch Nokia Networks Panelists: Ömer Bulakci Huawei Icaro da Silva Ericsson Tod Sizer Alcatel-Lucent Maziar Nekovee Samsung It is a common understanding that the 5th generation of cellular communications (5G) will not only address the communication needs for humans beyond 2020, but also the very diverse needs of massive and mission-critical machine-type communications. A lot of research has already been conducted in the past years to determine the key technology components to address these novel and diverse requirements, yielding the consensus that there cannot be a “one-size-fits-all” approach, but that 5G will rather consist of an integration of evolved legacy and novel radio technologies that will jointly provide the needed versatility, scalability and efficiency to address the 5G requirements. However, there is still the need for substantial consensus-building on key design aspects related e.g. to the overall 5G radio access network (RAN), in particular as 5G standardization is expected to start with first study items in 3GPP already in 2016. This panel is organized by the 5G-PPP project METIS-II, which has the objective to provide a comprehensive and detailed 5G RAN design for an efficient start of 5G standardization, and will address the most controversially discussed aspects related to 5G RAN design, e.g. 1) how a reasonable and meaningful subset of 5G functionality can already be standardized in 3GPP Rel. 14, in order to enable early 5G roll-outs in 2020, without limiting the longer-term potential of 5G, 2) to which extent novel air interfaces introduced in 5G can be scalable to different needs and carrier frequencies, and how these will divide the overall requirements space among themselves, 3) what the role of evolved legacy radio interface technology (e.g. LTE-A) will be in the 5G era, and 4) which precise trade-off between flexibility and complexity should be chosen for 5G, for instance considering RAN virtualization? Dr. Patrick Marsch received his Dipl.-Ing. and Dr.-Ing. degrees from Technische Universität Dresden, Germany, in 2004 and 2010, respectively. He was the technical project coordinator of the project EASY-C, where the world’s largest early research test beds for LTE-Advanced were established. After heading a research group at TU Dresden, Germany, he is now leading a radio research department within Nokia Networks, Wrocław, Poland. He has (co-)authored 50+ journal and conference papers, has received four best paper awards, been editor of or contributor to several books and has been awarded the Philipp Reis Prize for pioneering research in the field of Coordinated Multi-Point (CoMP). Patrick is the technical manager of the 5G-PPP project METIS-II. Ömer Bulakci received the B.Sc. degree in electrical and electronics engineering from Middle East Technical University, Turkey, in 2006, M.Sc. degree in communications engineering from Technical University of Munich, Germany in 2008, and the doctoral degree in communications engineering from Aalto University, Finland, in 2013. From 2009 to 2012, he worked on multihop relay networks including LTE-Advanced standardization at Nokia Siemens Networks, Germany, in support of his doctorate studies. Since October 2012, he has been contributing to EU 5G flagship projects METIS and METIS II at Huawei Technologies ERC, Germany. He is an author or a coauthor of 40+ publications and is an inventor of 10+ patent applications. His research interests include dynamic network topology and system design of 5G networks. He is currently leading the agile resource management framework in METIS II. Icaro da Silva is a research engineer currently driving activities in the context of 5G RAN evolution at Ericsson, mainly focusing in 5G architecture topics. He is also leading the overall 5G

control plane design in METIS-II. Icaro has received his M.Sc. in telecommunications engineering from the Federal University of Ceará (UFC), Fortaleza, Brazil, in 2009. During his thesis work, Icaro worked with advanced receivers and physical layer design for LTE-Advanced jointly with the Radio Access Technology department, at Ericsson Research. In 2010, he joined the Wireless Access Networks department, at Ericsson Research, Stockholm, and has since been working on concept development and prototyping in the areas of network management (OSS/BSS), data analytics for telecom applications, self-organising networks and protocol architectures for radio access networks. His main contributions are related to RAN1/RAN2/RAN3/SA5 topics of LTE/LTE-Advanced standardization holding several patents and publications. Dr. Theodore (Tod) Sizer is Vice President of the Wireless Research Program in Bell Laboratories. In this role he leads teams in six worldwide locations innovating in all aspects of wireless systems, technology and software. In addition his teams collaborate with fixed access systems including copper, and optical with special opportunities being explored at the convergence between these and wireless. Recently he has had significant impact as a key proponent and inventor of the lightRadio and small cell technology and systems leading to Alcatel-Lucent's product line solution to address the current Wireless Data explosion.During his tenure at Bell Labs he has performed research in Wired and Wireless Home Networking, Fixed Wireless Loop systems, Video Watermarking technologies, Optical Computing and Switching Systems, and High Power Laser Design. He was a member of the technical team in Lucent's role as a promoter in the Bluetooth Special Interest Group (SIG). His responsibilities in the SIG included being Chair of the


Coexistence Working Group. Tod graduated from Amherst College, Magna Cum Laude and received his Masters and Doctorate from the Institute of Optics at the University of Rochester. In 2007 Tod was named a Bell Labs Fellow 'For sustained creative contributions to wireless systems, particularly in the convergence of packet and wireless technologies'. He is the author of 51 US patents, over 50 refereed publications and is a member of the IEEE and OSA. Dr. Maziar Nekovee is a Group Leader and Chief Engineer at Samsung Electronics R&D Institute UK (SRUK) where he leads Samsung's European Research in 5G, including Samsung's overall involvement in the Horizon 2020 5G PPP projects mmMAGIC, METIS-II and FANTASTIC-5G. He is also an elected member of the EU's 5G Infrastructure Association, where he contributes on behalf of Samsung to 5G vision, spectrum and

pre-standards working groups. Prior to joining Samsung in 2013 he was from 2001 with BT (British Telecom) where he pioneered and led research in cognitive radio and dynamic spectrum sharing technologies, with applications to rural broadband and M2M/IoT, and provided technical consultancy to business units on wireless strategy and 4G spectrum auction. Maziar had a PhD in physics and a first degree and MSc in Electrical Engineering (cum laude) both obtained in the Netherlands. He has received a number of prestigious awards for his contributions to research in mobile communications , including Samsung DMC R&D's Best Research Practice Award in 2015, BT's Innovation Award in 2011 and the Royal Society (UK Academy of Science) Industry Fellowship in 2005. He is the author of over 90 peer-reviewed papers, 1 book and has a number of patents in telecommunication technologies.

Monday 7 September 2015, 16:00–17:30 (Burroughs) K3: Next Generation Mobile Networks This session will give an overview of possible research directions related to next-generation mobile communication networks, also known as 5G. The following three main topics will be in focus: (i) Air interface evolution and possible key components, including discussion of the need for a highly flexible air interface to meet diverse service requirements. (ii) Advanced customer experience management, including requirements for access technology (technologies) to provide seamless customer experience with respect to network (access), device and service requirements. (iii) Software defined 5G networks, including the most important enabling technologies, leveraging Software Defined Networking (SDN), Network Functions Virtualization (NFV) and Mobile Edge Computing (MEC). WiFi, telephony and vehicles Mayan Moudgill, Optimus Using WiFi for telephony from a moving vehicle is an interesting problem. We will examine some of the engineering challenges that will need to be overcome, and suggest approaches to overcoming them. Dr. Mayan Moudgill has worked extensively across multiple areas of computer technology, ranging from microprocessor design to enterprise software stacks. He has published extensively and holds numerous patents in areas including digital circuits, system simulation, signal processing algorithms, and compilers. He is currently CTO of Optimum Semiconductors. Previously, he has worked at Goldman-Sachs, Sandbridge Technologies, and IBM T.J. Watson Research Center. He holds a Ph.D. in Computer Science from Cornell University. Customer Experience Management in 5G Haris Gačanin, Alcatel-Lucent In the last few years it was advocated that mobile customers in 4G expect to be “connected” at all time and at any place. However, this time we have to be more precise. Today’s requirements from the customer’s perspective are much more demanding. They expect to have a guaranteed “service quality” or “quality of experience” at all time, at any place (indoor or outdoor) and through different devices. This sets a challenging requirement on the next-generation (name it 5G) access technology (technologies) to provide seamless customer experience with respect to network (access), device and service requirements. What we expect from 5G innovations will enhance new services and enrich our societies beyond what we experience today. It is evident that management paradigm needs to be changed.

Haris Gačanin received Dipl.-Ing. degree in Electrical engineering from University of Sarajevo in 2000. He received M.E.E. and Ph.D from Tohoku University, Japan, in 2005 and 2008, respectively. Since April 2008 until May 2010 he has been working first as Japan Society for Promotion of Science (JSPS) postdoctoral research fellow and then as an Assistant Professor at Tohoku University. He is currently working as Research Director in Alcatel-Lucent Bell in Belgium. He is senior member of IEEE and IEICE. He is a recipient of the 2013 Alcatel-Lucent Award of Excellence and the 2010 KDDI Foundation Research Award. Air interface evolution towards 5G Klaus Pedersen, Nokia In this talk we start with 5G radio requirements and use cases, including an overview of the possible spectrum opportunities. The evolution towards a new 5G air interface design is afterwards discussed, elaborating on the possible key components and their pros and cons. Among others, the need for a highly flexible air interface to meet diverse service requirements, as well as adaptation in coherence with the radio environment, is motivated. The evolution of LTE-Advanced to support higher bandwidth, increased spectral efficiency, shorter latency, and new use cases is also addressed. The talk is closed with an outline of possibilities for introducing state-of-the-art 5G air interface innovations. Klaus I. Pedersen received his M.Sc. E.E. and Ph.D. degrees in 1996 and 2000, respectively, from Aalborg University, Denmark. He is currently with Nokia Networks in Aalborg, where he is a senior wireless network specialist. His current work is related to 5G air interface and system design. He is the author/coauthor of more than hundred peer-reviewed publications on a wide range of topics. He is appointed as apart-time professor at Aalborg University in the Wireless Communications Networks (WCN) section.


Towards Sustainable 5G Networks: Vision and Design principles for New Horizons Ömer Bulakci, Huawei The speech introduces the main challenges for enabling the 5G vision along with the associated opportunities and research directions. We will also touch upon our multitenant network and services vision and the most

important 5G enabling technologies, leveraging Software Defined Networking (SDN) and Network Functions Virtualization (NFV) as a means to embrace the vertical industries as new horizons. Conclusions are drawn on the main research, innovation and standardization activities towards the IMT for 2020 and beyond. Ömer Bulakci’s bio appears on Page 19.

Tuesday 8 September 2015, 11:00–12:30 (Burroughs) K4: 5G Architectures Moderator: Simone Redana Radio Research Manager, Nokia Networks Panelists: Naseem Khan Distinguished Member of Technical Staff, Verizon Reinaldo Valenzuela Director Wireless Comms Research Dept, Alcatel-Lucent Bell Labs Andrew Clegg Spectrum Engineering Lead, Google Andy Lippman Associate Director, MIT Media Lab

Mobile networks have become the main communication vehicle for the upcoming connected society. In addition to humans, billions of machines will be connected to the network in the future, yielding a 10.000 traffic increase beyond 2020. However, such traffic increase does not necessarily lead to a similar increase in the revenue of mobile network operators, which need to make very high investments to handle all this traffic. This challenges the deployment of a mobile network that can satisfy the requirements of the society and at the same time is sustainable for network operators. A fundamental piece to address this challenge is the design of a novel mobile network architecture that provides the necessary flexibility to offer new services in an efficient way and inherently can share or distribute infrastructure resources dynamically, such that operators can increase their revenue through the new services, while leveraging the efficiency of the architecture to do so in a cost-effective way. Current mobile networks are not well suited to address the above challenge. In 4G mobile networks, large effort was made in making the air interface fully adaptive to changing radio conditions, but lack similar functionality to optimize the network side. Eventually, while current architectures have been very successful in the last few years, they do not provide the required flexibility to cope with the service and traffic diversity required by 5G mobile networks as well as the current trends in terms of topologies. Such trends (in terms of traffic and topologies) make networks increasingly heterogeneous and require tailored solutions to adapt to each specific scenario and service in an efficient way. In order to overcome the limitations of today’s networks, the central goal of this panel is to discuss about future mobile network architectures that can flexibly adapt its operation to the specific characteristics and requirements of a given service and scenario. Simone Redana received the MSc and Ph.D. degrees from the Politecnico di Milano, Milan, Italy, in 2002 and 2005 respectively. In 2006, he joined Siemens Communication in Milan, which merged with Nokia Networks in 2007 to become Nokia Siemens Networks, Nokia Solutions and Networks in 2013 and Nokia Networks in 2014. Since 2008, he has been with Nokia in Germany, where he is currently Radio Research Manager and Leader of the Radio Systems team in Munich. Simone contributed to the relay concept design in the EU project WINNER II and the Eureka Celtic project WINNER+ as well as he led the work package on advanced relay concept design in the EU project ARTIST4G. He contributed to the business case analysis of relay deployments and to the standardization of Relays for Long-Term Evolution (LTE) Release 10. He led research and standardization projects on Self-Organizing Network (SON) for LTE Release 11. His current research interests are on novel architecture solutions for 5G era, where he is coordinating the H2020 5G NORMA project. Naseem Khan is currently involved with the wireless standardization, strategy, and architecture activities at Verizon focusing on 5G, software-defined networks, network function virtualization, M2M, mobile core, and CPE. His work experience includes: virtualization of wireless networks, network convergence, policy control/QoS, 3GPP IMS/VoLTE, IPTV,

FTTP, and network performance, reliability, and management. He has led technology planning, evaluation and implementation, industry partnerships and RFP initiatives. He has served on a number of standards committees and boards in leadership roles. Previously, he held management and senior technical positions at companies including AT&T/Lucent Bell Labs and Motorola. He holds a Ph.D. in Computer Science, and MS and BS in Electrical Engineering, and has received numerous awards including Verizon’s Telecom Leaders Circle and Multiservice Forum’s Senior Fellow. Reinaldo A. Valenzuela: Fellow IEEE. IEEE Eric E. Sumner Award. Bell Labs Fellow. WWRF Fellow, 2014 IEEE CTTC Technical Achievement Award, 2015 IEEE VTS Avant Garde Award. B.Sc. U. of Chile, Ph.D. Imperial College. Director, Wireless Communications Research Department, Distinguished Member of Technical Staff, Bell Laboratories. Engaged in propagation measurements and models, MIMO/space time systems achieving high capacities using transmit and receive antenna arrays, HetNets, small cells and next generation air interface techniques and architectures. He has published 190 papers and 44 patents. He has over 22,000 Google Scholar citations and is a ‘Highly Cited Author’ In Thomson ISI and a Fulbright Senior Specialist.

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Andrew Clegg is the Spectrum Engineering Lead for Google. He is presently focused primarily on identifying spectrum sharing opportunities for commercial wireless networks. Prior to joining Google, he served as the spectrum manager for the U.S. National Science Foundation. At NSF, he founded the Enhancing Access to the Radio Spectrum (EARS) program, a funding program dedicated to supporting academic and small business research focused on improving spectrum efficiency and access. Prior to NSF, he was a Lead Member of Technical Staff at what is now AT&T Mobility. He has over 25 years experience in national and international spectrum management, and was a member of the U.S. delegation to two World Radiocommunication Conferences. Andy Lippman has a BSEE and MS from MIT and a PhD in Electrical Engineer from EPFL. In the 1980s he developed maps

that we know about today as Google’s streetview. He helped pioneer visual computing and communications systems such as MPEG and digital HDTV. He formed the Media Lab’s Digital Life Program that engages 15 researchers and 45 companies in the invention and development of technologies and applications for human creativity and learning. More recently, he has created the Viral Communications research group at the lab to explore how to design grassroots technologies and ideas that can scale without bound. Some work of this group addressed cooperative mesh radio networks that were used as the design basis in the One Laptop Per Child program. His current work is focused on the development of technologies and social structures for media, collaboration, and learning that challenge existing, conventional institutions.

Tuesday 8 September 2015, 14:00–15:30 (Burroughs) K5: 5G Challenges: Spectrum, Technology and Regulation

There has been tremendous interest in the wireless industry and academia over the last few years to begin the process of defining requirements and technologies for the next generation of cellular systems, 5G, expected to be deployed around 2020. The requirements of 5G have to meet the projected demands of 2020 and beyond: higher traffic volumes, higher date-rates, larger number of devices, lower latencies, improved energy efficiency and lower cost: in short, orders of magnitude improvement on all key metrics. We explore key areas that need to be investigated in order to make 5G a reality: New spectrum: how key is allocation of new spectrum above 24 GHz; New technologies: massive MIMO, new waveforms, beamforming etc; and harmonized worldwide regulations. Challenges for 5G IoT Air Interface System Design Gilles Charbit, MediaTek Air interface system design for Internet of Things (IoT) in 5G network will present a number of challenges. Flexible support of sub-systems re-using the same spectrum resources will be needed to meet the specific requirements of mobile broadband and IoT services with massive number of connections or very low latency. Optimization of the Physical (PHY) and Medium Access Control (MAC) layers specific to each of these subsystems while maximizing synergies for the system design to allow harmonious co-existence over the air interface will be important considerations. Dr Gilles Charbit graduated at the “Grande Ecole National Supérieur de L’électronique et Applications (ENSEA, France)” and received the Ph.D. degree in Radio Communications at Lancaster University (England). He is currently a Distinguished member of technical staff in Chief Technical Office, Advanced Communication Team, at MediaTek. Prior to joining MediaTek, he worked for Renesas Mobile Europe, Nokia and NEC. He has over 20 years of experience in 2G/3G/4G/4G evolution cellular system design and analysis, algorithm development, physical-layer modeling and simulations. He was standards delegate in ETSI SMG1 GPRS group and has attended 3GPP RAN1, RAN Plenary, SA1 standards meetings and Next Generation Mobile Network (NGMN) on behalf of MediaTek. He has over 30 patents issued in the US and more than 10 journal and conference paper publications. His current research interests are in the areas of 5G and Internet of things (IoT). An Overview of 5G Requirements and Candidate Technologies Ashwin Sampath, Qualcomm Recently, there has been a surge in activity regarding 5G. This talk will provide an overview of emerging high-level requirements for 5G and associated enabling technologies.

Qualcomm's view is that scalability and adaptability would be critical for 5G design, as it would need to address a wide range of services from enhanced mobile broadband, to wide area IoE, to increased-reliability use cases. Furthermore, there is a need for a unified air-interface design to meet those diverse needs while exploiting resources from multiple bands, both licensed and unlicensed. The talk will conclude with a deeper look at channel measurements and design challenges for millimeter wave bands. Ashwin Sampath is Senior Director of Technology at Corporate R&D, Qualcomm, NJ. He is leading millimeter wave research within the division, overseeing channel measurements/modeling, system design, standardization and prototyping. He has been with Qualcomm, CR&D since 2005 where he has led projects related to dense small-cell networks, topics in LTE-Advanced, 3G/4G multi-mode wireless modem design for small-cell ASICs and Femto cell SoC architecture. Prior to joining Qualcomm, from 2003-2005, he was with Texas Instruments, leading HSDPA systems engineering for a mobile SoC and before that, was Distinguished Member of Technical Staff at Bell Labs from 1997-2003. He has over 90 issued patents. He holds a PhD in Electrical Engineering from Rutgers University. 5G Physical Layer: Opportunities and Challenges Reinaldo Valenzuela, Bell Labs The insatiable demand for media rich content and the increasing availability of advanced devices such as smart phones, tablets, etc., is forcing the mobile communications eco system to start in earnest to consider the next generation solutions to address these needs. Some of the options being mentioned as ingredients for such 5G mobile radio systems include Small Cells, HetNets, Carrier Aggregation, Machine-to-Machine, IoT, Relays, D2D and operation in the millimeter wave spectrum range, among others. In this talk, I will review some of the background


trends driving the evolution of broadband wireless access that will impact the technology choices beyond 2020. We will consider some of the most intriguing options service providers may consider. Reinaldo A. Valenzuela’s bio appears on Page 21. 5G: What to expect and where to start? Frederick Vook, Nokia Wireless data traffic is projected to skyrocket more than 10,000 fold beyond 2020 due to increased usage of smart-phones, tablets, new wireless devices, and IoT. The 5G research have just started and the industry is starting to come together with a complete view of the key requirements for a new technology generation. We will present an overview of 5G technology covering 5G requirements, spectrum, propagation and channel modeling, and air-interface design, as well as the standards and commercialization timeline of next generation wireless systems. We conclude with the vision that 5G technology will provide a scalable service experience everywhere and anytime where people and machines will enjoy virtual zero latency gigabit experience when and where it matters. Frederick W. Vook (SM'04) received the B.S. degree from Syracuse University in 1987 and the M.S. and Ph.D. degrees from The Ohio State University in 1989 and 1992, respectively, all in electrical engineering. From 1992 to 1995, he was with the Motorola Wireless Data Group where he worked on 19 GHz and 2.4 GHz propagation modeling and air-interface design for Motorola's wireless LAN products. From 1995 to 2008, he was with Motorola Laboratories, where he worked on MIMO, beamforming, and air interface design for broadband mobile

communication systems. From 2008-2011, he was with Motorola Home & Networks Mobility where he worked on physical layer modeling and MIMO techniques for IEEE 802.16/WiMAX and LTE Rel-8-10. Since 2011, he has been with Nokia where his current work involves advanced antenna array solutions for LTE and 5G cellular systems. How public policy shapes 5G Sharon Gillett, Microsoft The search is on for new markets and business models for 5G wireless, including connected cars, IoT, and other new services. This talk will cover how the spectrum, competition and net neutrality policies that regulators adopt worldwide will shape what new models will emerge, by determining what spectrum can be used for 5G networks, how intense competitive pressure is likely to be in different parts of the world, and whether certain business models will be on or off the table. Sharon Gillett has been dedicated to expanding the reach of connected computing ever since her first job writing software for the ARPANET, a precursor to the Internet. At Microsoft, she focuses primarily on connectivity strategy and policy. Prior to joining Microsoft, she was Chief of the Wireline Competition Bureau at the U.S. Federal Communications Commission (FCC). Previously, Sharon served as the first Commissioner of Telecommunications and Cable for Massachusetts, and the first Director of the Massachusetts Broadband Institute. She was a Principal Research Associate at MIT where she researched and taught communications policy and directed an industry partnership program. Sharon earned an MBA from Sloan, an MS from MIT, and an AB in Physics from Harvard.

Tuesday 8 September 2015, 16:00–17:30 (Burroughs) K6: Enabling Technologies for Wireless Communications WiFi, telephony and vehicles Mayan Moudgill, Optimus Using WiFi for telephony from a moving vehicle is an interesting problem. We will examine some of the engineering challenges that will need to be overcome, and suggest approaches to overcoming them. Dr. Mayan Moudgill’s has worked extensively across multiple areas of computer technology, ranging from microprocessor design to enterprise software stacks. He has published extensively and holds numerous patents in areas including digital circuits, system simulation, signal processing algorithms, and compilers. He is currently CTO of Optimum Semiconductors. Previously, he has worked at Goldman-Sachs, Sandbridge Technologies, and IBM T.J. Watson Research Center. He holds a Ph.D. in Computer Science from Cornell University. Wideband transceiver technology Chris Mayer, Analog Devices Wideband transceivers can now be effectively implemented on bulk CMOS processes. With the advantages of mainstream digital technology come the challenges of implementing high performance analog circuits using lower voltage and non-linear transistors. Analog Devices’ AD9370 employs a large variety of calibrations to attain high performance and standards adherence. An overview of the transceiver design with

highlights on a few of the internal calibrations is presented, with discussion on how we abstract the underlying complexity to allow our customers to achieve robust and rapid system design using our parts. Chris Mayar started at ADI in 1994, working on audio codecs. In 1999, he switched to DSP processor design on the AD219X and Blackfin projects. After a decade of processor design, Chris switched into the RF wideband transceiver product line, working on the AD9361, AD9368/9, and successive transceiver products. Working in close collaboration with the analog designers, Chris architects, designs, verifies, & tests the digital portions of our transceivers, including the processor subsystems, and especially the calibrations which function across both digital and analog realms. Previously, Chris attended MIT (MSEE 1991) and worked at Digital Equipment Corporation on Alpha processor design verification. Software-Defined Engineering Otto Fonseca, TELUS As the world increasingly transforms into a software-dominated space, the role of engineering is questioned by the uncertainty in delineating software functions and the thorough engineering of the systems they support. The previous debates about engineers expanding from building bridges, railroads and planes that physically connect the world into building telecommunication networks that virtually connect it in real time, seem now outdated with


the new threat of engineering-role confusion and the argument of skills and knowledge brought unnecessary by increasing automation and simplification. We will discuss from both a technological and an organizational viewpoint, the role of engineering in Software-Defined Industries and the evolution of the profession to answer the challenges of our modern world. Otto Fonseca is the national Director of Core Networks Planning and Engineering at TELUS, the second largest Canadian wireless carrier, which offers products and services including LTE, HSPA, HSIA, mobile/fixed IP TV, and health solutions. An M.Eng (McGill) MBA (UBC) he leads several platforms from both the technical and financial standpoint. His teams span the national wireless IMS/LTE/HSPA core, wireline core voice, video and audio conferencing, IP voice, microwave, e911, and number planning. Mr. Fonseca has primed engineering projects such as the early introduction of small cells in Vancouver's Financial District, the automatic RAN optimization of TELUS' national HSPA overlay and the Agile optimization of the wireless core for real-time IP services. He is currently developing Engineering and business models for Agile Integration of new M2M, RTC and SDN business opportunities, through Systems Engineering, risk bundling and economies of scope. His academic experience includes authoring three IEEE conference papers and award-winning projects in statistical modelling, machine learning, robotics and biomedical engineering.

The Next Generation of Connectivity Jose Fridman, Qualcomm Generational shifts in technology capture the imagination and offer the opportunity to push the envelope and do things in entirely new ways. The story of 5G is no different; it will be a transformational force that enables new services, connects new industries, and empowers new user experiences for the next decade — and beyond. 5G promises to deliver much more than just higher data rates and more capacity. It targets new kinds of ultra-reliable, mission critical services. We will outline Qualcomm’s approach to 5G, which enables the foundation of a new user-centric design that can scale and adapt to billions of connected things, provide new ways of connecting everything, and enhance cost and energy efficiency. Jose Fridman is a Senior Director of Technology with Qualcomm, in Boxborough MA, where he is leading the development of modem technology for wireless handsets. Prior to his tenure at Qualcomm, Jose was with Analog Devices, Inc., developing platforms for wireless handsets and was the architect for the Blackfin and TigerSHARC DSPs. He holds 20 patents and 6 pending in DSP and modem design. Jose received a Ph.D. degree in EE from Northeastern University, and lives in Newton, MA with his wife and two children.

Wednesday 9 September 2015, 11:00–12:30 (Burroughs) K7: Autonomous Vehicles Automated Parking Meets Self-Driving Amin Taleb, Valeo Park Assist systems based on ultrasonic technology are on the market for more than 20 years and have almost become a standard feature. The launch of the semi-automatic Park Assist in 2007 marked the rise of automated parking. By now fully automatic systems are available. The development is aiming towards completely self-parking cars. In parallel, the industry is seeing an unprecendeted development effort of self-driving cars with high degree of autonomy, where such automated driving vehicles can operate in highways and city driving. Valeo has demonstrated both self-parking and automated driving cars in recent years. From ADAS standpoint, these demos were relying on similar key sensor technologies. Dr. Amine Taleb is the Manager of Advanced Projects for Valeo's Comfort and Driving Assistance (CDA) Business Group in North America. In this role, he leads the advanced engineering in ADAS applications, including Active Safety and Automated Driving/Parking, Connectivity, and Intuitive Controls for the North American Market. Prior to joining Valeo's CDA Business Group, he held several technical leadership positions at various automotive innovation suppliers in the area of advanced lighting, active safety and smart sensing devices. He has more than 20 years of experience in advanced technologies with technical expertise in the opto-electronic field. Dr. Taleb graduated from the University of Michigan in Ann Arbor, Mich. with a doctorate degree in Physical Chemistry. As a 16-year member of Society of Automotive Engineers (SAE), he has been published several times, and most recently on camera monitoring systems. Dr. Taleb has also contributed as invited speaker, panelist, and SAE technical publications reviewer around ADAS topics. Valeo is an

automotive supplier, partner to all automakers worldwide. As a technology company, Valeo proposes innovative products and systems contributing to the reduction of CO2 emissions and to the development of intuitive driving. In 2014, the Group generated sales of €12.7 billion ($16.7 billion) and invested over 10 percent of its original equipment sales in research and development. Valeo has 133 production sites, 50 research and development centers and 15 distribution platforms and employs 78,500 people in 29 countries throughout the world. Truck Automation: Challenges and Opportunities Mohammad Poorsartep, Texas A&M Transportation Research Institute There are major incentives for the trucking industry to adopt and implement automation. This presentation explores current and future challenges and opportunities in truck automation Mohammad Poorsartep is a Research Scientist at the Texas A&M Transportation Research Institute where he also serves as Project Manager for TTI's Connected Transportation Initiative. In his current position, he is leading TTI's activities further into the emerging area of automated and autonomous vehicles technology. Mr. Poorsartep has an extensive background in working with construction, telecommunications, automotive, and defense industries. Previously he spent more than four years at University of Michigan where he led the activities of the Connected Vehicle Proving Center conducting research projects sponsored by automotive manufacturers, government agencies, and other entities. Mr. Poorsartep has been involved with several national and is an active member of industry groups such as Society of Automotive Engineers, AUVSI, and ITS America, setting standards and guidelines for testing and operation of connected and automated vehicles.


Autonomous Vehicles - Where we are and Where We Are Heading John Estrada, eTrans Systems The transportation and automobile industries are poised to make tremendous changes in the coming years. Through technology advances these changes will have more impact on the transportation industry than anything since Henry Ford's introduction of the Model T. This presentation will discuss where things stand today, what's driving this happening and where are things headed.

John Estrada is the Founder and CEO of eTrans Systems. He is the Chairman of the Board for Driverless Transportation - a leading industry trade journal. He has 30 years experience in software development management and in the development and growth of startup businesses. eTrans Systems was launched in 2014 specifically to provide software solutions using Connected Vehicle Technology. eTrans has been working as part of the DOT's Connected Vehicle Test-bed for over a year and is currently developing both V2V and V2I applications. Driverless Transportation is an industry trade journal which is monitors and reports on the Autonomous technologies. Mr. Estrada has a BS in Computer Science and BA in Economics from Virginia Tech.

Wednesday 9 September 2015, 14:00–15:30 (Burroughs) K8: Connected Vehicles Cooperative Connected Vehicles Radovan Miucic, Honda Vehicle to vehicle communications, namely DSRC, is one of the driving forces behind innovations in the future automotive safety systems. USDOT, automotive industry and our suppliers have spent years in research and development and we are finally at door steps of introducing this technology into production. The technology has been tested in various field trials, pilots and model deployments. Cooperative safety applications such as Intersection Movement Assist, Emergency Electronic Brake Light, and Forward Collision Warning have potential to reduce number of vehicle to vehicle accident related fatalities. Honda is working on expanding vehicle to vehicle safety benefit and is currently researching vehicle to motorcycle and vehicle to pedestrian cooperative safety applications addressing the recent rise in percentage of fatalities of the vulnerable road users. Some challenges remain to be perfected such as positioning in deep urban areas, scalability, security and privacy but we are confident that the future will bring better days for the transportation safety. Dr. Radovan Miucic is a Research Engineer at Honda R&D Americas, Inc.. Radovan Miucic received the B.S., M.S. and Ph.D. degrees in computer engineering from Wayne State University, Detroit MI, in 2001, 2002 and 2009, respectively. He worked as embedded software engineer (2001-2007), working for Visteon, Delphi and Siemens. He joined Honda R&D Americas, Inc. in 2007, as a Research Engineer in the ITS Group. He is also Adjunct Professor of Electrical Engineering at Wayne State University from 2012. He represented Honda in various U.S. Department of Transportation sponsored projects: Vehicle Infrastructure Integration (2007-2008), within Vehicle Safety Communication (VSC) consortium: VSC-Applications (2008-2009), VSC-Interoperability (2010-2014), and VSC- Security (2013-2015). His previous research interest was in optimization of in-vehicle networks and embedded software architecture. His current research is in wireless congestion control, performance of vehicular networks, security and privacy, and development of cooperative safety applications. Future of Transportation – The Emerging Technology Landscape Andy Palanisamy, Leidos The presentation will offer a 360degree perspective on the emerging transportation technology landscape – from connected vehicles to fully automated vehicles – and how

the various forces are shaping this industry. The presentation will address a variety of issues such as demographic trends, technical and policy challenges, changing attitudes of the public, market/economic forces, ridesharing and electrification, etc. and how they influence the automobile industry globally. Andy Palanisamy is a seasoned transportation technology, communications, and policy professional with nearly 14 years of experience in the intelligent transportation systems industry. Andy has led and supported his team on various technical activities and communications programs/projects at the USDOT for over a past decade and is currently leading Leidos' outreach and communications activities associated with the USDOT Connected Vehicle Test Bed. In addition, Andy is also responsible for leading the outreach and communications activities carried out by the Federal Highway Administration's Office of Operations Research and Saxton Transportation Operations Laboratory. He is an avid blogger and has written extensively on transportation technologies, offering his perspective gained from his work in support of the USDOT's Intelligent Transportation Systems Joint Program Office (ITS JPO). Andy has built an extensive network among the industry stakeholders and is well recognized for his ability to organize and deliver meetings and workshops. He has an excellent track record in the areas of program management, strategic communications and public engagement. Andy holds a Bachelor degree in Civil Engineering and completed Master degree courses in Civil Engineering at West Virginia University. At present, he is on a sabbatical, pursuing a Master Degree in Public Administration (MPA) at the Harvard Kennedy School of Government. V2I and Other Extensions to Connected Vehicle Technology John Estrada, eTrans Systems The government has announced it will require Connected Vehicle/DSRC technology in all new vehicles in the not too distant future. The driving factor in this decision and the use of the technology is its ability to reduce accidents and roadway deaths through V2V (Vehicle-to-Vehicle) safety messages. While the most critical set of applications, these safety applications are just a small part of the overall application set that is envisioned. Many of these applications involve connecting vehicles to infrastructure (V2I). This presentation will explore various options that are currently being explored and the benefits from V2I applications. John Estrada’s bio appears above.


Wednesday 9 September 2015, 16:00–17:30 (Burroughs) K9: Enabling Technologies for Automotive New Digital Bus Architecture for Audio Systems Kenneth Waurin, Analog Devices Car manufacturers strive to make future generations of vehicles safer, smarter and more fuel efficient than their predecessors. Reducing the weight of existing cable harnesses - that may weigh hundreds of pounds - can lead to significant improvements in fuel efficiency. The Automotive Audio BusTM (or A2BTM) is an innovative technology from Analog Devices that reduces system cost, weight, and design complexity by distributing audio and control data, together with clock & power over a single, low-cost, unshielded twisted pair cable where connector size is minimized. The A2B technology is targeted for emerging, wiring-intensive applications such as Active Noise Cancellation, In-Car Communications, and Distributed Audio. Ken Waurin is a Strategic Marketing Manager responsible for the Automotive Infotainment Business at Analog Devices. He has over 25 years of experience in the semiconductor industry, starting in design & field applications engineering and moving into product development, business development, and marketing after joining ADI in 1996. Ken holds a Bachelor of Science in Electrical Engineering and Masters in Business Administration.

Cutting the Cord on Electric Vehicle Charging Grant Reig, WiTricity Recent advancements in wireless power transmission, particularly the introduction of resonance, has cleared a path for the introduction of wireless charging systems for electric and hybrid vehicles which offer an improved user experience, increased safety and security and comparable charging efficiencies to wired chargers. During this panel, WiTricity will discuss the basics of magnetic resonance, a high level system overview of an automotive wireless charging system and cover a range of application examples including vehicle ground clearances, charge rates and other system attributes. Grant Reig is a Senior Product Manager at WiTricity where he is responsible for defining and driving the product strategy and direction of the automotive, consumer and other WiTricity product lines. Reig joined the company in early 2014 from Olympus where he served as the Executive Director of Product Management for the global NDT product group. He has held multiple product management positions throughout his career across a wide range of disciplines successfully launching products into new and developed markets. Reig holds a High Tech MBA from Northeastern University and a Bachelor of Science degree in Electrical Engineering from Bucknell University.


VTC2015-Fall Technical Program Monday 7 September 2015

Monday, 7 September 2015 11:00-12:30 Carlton 1A: Spectrum Sensing 1 An EMD-based Double Threshold Detector for Spectrum

Sensing in Cognitive Radio Networks Mahdi H. Al-Badrawi, Nicholas J. Kirsch, University of New Hampshire

2 Feature detection scheme using Cyclic Prefix (CP) in OFDM; its application and performance Kanshiro Kashiki, Tomoki Sada, Kosuke Yamazaki, Shingo Watanabe, KDDI R&D Laboratories

3 SDR Implementation of Spectrum Sensing for Wideband Cognitive Radio Juan Merlano-Duncan, Tadilo Endeshaw Bogale, Long Le, INRS, University of Quebec

4 Robust Wideband Spectrum Sensing with Compressive Sampling in Cognitive Radios Pankaz Das, Sudharman K. Jayaweera, University of New Mexico

5 Sparsity Update Subspace Pursuit Algorithm for Compressed Spectrum Sensing Li Chang, Jen-Ming Wu, National Tsing Hua University

Monday, 7 September 2015 11:00-12:30 Lewis 1B: Scheduling and Energy Management in Ad Hoc Sensor Networks 1 An Ad-Hoc Opportunistic Dissemination Protocol for

Smartphone-based Participatory Traffic Monitoring Okan Turkes, Fatjon Seraj, Hans Scholten, Nirvana Meratnia, Paul J. M. Havinga, University of Twente

2 Battery Energy Management in Heterogeneous Wireless Machine-to-Machine Networks Kaikai Liu, University of Florida; Jianlin Guo, Mitsubishi Electric Research Laboratories; Philip Orlik, Mitsubishi; Kieran Parsons, Mitsubishi Electric Research Laboratories; Kentaro SAWA, Mitsubishi Electric Corporation

3 Distributed Delay-Aware Resource Control and Scheduling in Multihop Wireless Networks Zhe Ji, Wang Youzheng, Jianhua Lu, Tsinghua University

4 QoI and Energy-aware Mobile Sensing Scheme: A Tabu-Search Approach Rim Ben Messaoud, University of Paris EST Marne La Vallée; Yacine Ghamri-Doudane, University of La Rochelle

5 Time of Arrival Estimation in Wireless Sensor Networks via OFDMA Mohsen Jamalabdollahi, Seyed Alireza Zekavat, Michigan Technological University

Monday, 7 September 2015 11:00-12:30 Griffin 1C: Resource Management 1 A MDP-based Dynamic Scheduling Scheme for Deadline

Contrained Content Distribution in Wireless Heterogeneous Nework Yu Shi, Ronghui Hou, Xidian University; King-Shan Lui, University of Hong Kong; Hongyan Li, Jiandong Li, Xidian University

2 Performance Analysis of Distributed Multi-cell Coordinated Scheduler Prakhar Nashine, Shalini Gulati, Suresh Kalyanasundaram, Balamurali Natarajan, Rajeev Agrawal, Anand Bedekar, Nokia Networks

3 The Effect of Channel Quality on Virtual Radio Resource Management Sina Khatibi, Luis M. Correia, IST/INOV-INESC - Technical University of Lisbon

4 Spatio-Temporal Multi-stage OpenFlow Switch Model for Software Defined Cellular Networks Yusuf Ozcevik, Muge Erel, BerkCanberk, Istanbul Technical University

5 Stochastic Geometry Modeling of Cellular Uplink Power Control under Composite Rayleigh-Lognormal Fading Prasanna Herath, University of Alberta / TRLabs; Chintha Tellambura, University of Alberta; Witold A. Krzymien, University of Alberta / TRLabs

Monday, 7 September 2015 11:00-12:30 Marina Room 1 1D: Channel Modeling I 1 2.45 GHz Near Ground Path Loss and Spatial Correlation

for Open Indoor and Snowy Terrain Andrew Szajna, Mrudula Athi, Angela Rubeck, Seyed Alireza Zekavat, Michigan Technological University

2 28GHz Wideband Characteristics at Urban Area Jong Ho Kim, YoungKeun Yoon, Young Jun Chong, Myung Don Kim, ETRI

3 A MIMO Radio Channel Model for Low-Altitude Air-to-Ground Communication Systems Michael Wentz, The MITRE Corporation; Milica Stojanovic, Northeastern University

4 Centimeter- and Millimeter-Wave Channel Modeling Using Ray-Tracing for 5G Communications Claude Oestges, Gauthier Hennaux, Quentin Gueuning, Université catholique de Louvain

5 Channel Model Validation for the Relay-Mobile Link in Microcell Environment Issam Maaz, Telecom ParisTech; Jean-Marc Conrat, Orange Labs; Cousin, Telecom ParisTech

Monday, 7 September 2015 11:00-12:30 Marina Room 2 1E: Coding 1 Adaptive Iterative Block-Delayed Partitioned Viterbi

Algorithm Mohamed Haroun, Université Laval; Sébastien Roy, Université de Sherbrooke

2 High-Throughput FPGA-based QC-LDPC Decoder Architecture Swapnil Mhaske, Rutgers University; Hojin Kee, Tai Ly, Ahsan Aziz, National Instruments Corporation, Austin, TX, USA.; Predrag Spasojevic, Rutgers University

3 Improved design criteria for duplicate LT codes Li Huaan, Lei Yuan, Yi Wan, Lanzhou University

4 Rateless Coded Vector OFDM System for Transmission Over Doubly Selective Fading Channels Panyu Fu, Zhaoyang Zhang, Huazi Zhang, Kun Tu, Zhejiang University

5 Performance Improvement of Accumulate-Repeat-Accumulate Codes with Bounded Complexity Waleed Saad, Faculty of Electronic Engineering , Menoufia University; Shady M. Ibraheem, University of Mansoura and Telecom Egypt; Salwa Serag Eldin, Tanta and Taif University; Maher Mohammad Abd Elrazzak, Mansoura University; Atef Aboelazm, Menoufiya University


Monday, 7 September 2015 11:00-12:30 Marina Room 3 1F: Receiver Technology 1 Analysis on Preamble Detection and False Alarm

Probabilities of ICPC Method Jung-Hyun Park, Min-Ho Kim, Doo-Chan Hwang, Jungil Han, Samsung Electronics

2 On the Optimum Number of Hypotheses for Adaptive Reduced-Rank Subspace Selection Markus Hofer, Zhinan Xu, The Telecommunications Research Center Vienna (FTW); Thomas Zemen, AIT Austrian Institute of Technology

3 Optimal Blind APSK Detection in Polynomial Time Yannis Fountzoulas, George N. Karystinos, Technical University of Crete

4 The Asymptotic Solutions of the Capacity Maximal Quantization Problem Qian Yu, MIT; Muriel Médard, Massachusetts Institute of Technology

5 Robust Decoding of Concatenated RS-Convolutional Codes over the Quasi-Static Fading Channel with No Explicit CSI Acquisition Haifeng Yuan, Pooi-Yuen Kam, National University of Singapore

Monday, 7 September 2015 11:00-12:30 Marina Room 4 1G: Wireless Networks 1 A Rigorous Model for Predicting the Path Loss in Near-

Ground Wireless Sensor Networks Amir Torabi, Seyed Alireza Zekavat, Michigan Technological University

2 Comparing resource allocation schemes in multi-homed LTE/WiFi access networks Ghina Dandachi, Telecom SudParis; Salah Eddine Elayoubi, Orange Labs; Tijani Chahed, Institut Mines-Telecom; Telecom SudParis; Nada Chendeb, Lebanese University

3 Efficient Multi-Cell Clustering for Coordinated Multi-Point Transmission with Blossom Tree Algorithm Nanyang Ye, Linhao Dong, Xiaoming Tao, Ge Ning, Tsinghua University

4 Performance of Remote Unit Collaboration Schemes in High Speed Train Scenarios Martin Klaus Müller, Martin Taranetz, Markus Rupp, Vienna University of Technology

Monday, 7 September 2015 11:00-12:00 Harbor Ballroom 1 1H: Short Papers I 1 Short Paper: A Distributed Mode Selection Scheme in

Cellular-Device to Device Networks Najmeh Madani, Tarbiat Modares University; Shabnam Sodagari, California State University, Long Beach; Paeiz Azmi, Tarbiat Modares University

2 Short Paper: Performance Analysis of Low-Complexity Uniform Power Loading with Reduced-Overhead OFDM Systems over Rayleigh Fading Channels Ebrahim Bedeer, Md. Jahangir Hossain, University of British Columbia

3 Short Paper: A Game Theoretic Approach For The Ride-Sourcing Territory Sharing Problem Haitham Amar, Otman Basir, University of Waterloo

4 Short Paper: A TDMA-MAC Protocol for VANET Using Cooperative and Opportunistic Transmissions Xinming Huang, Worcester Polytechnic Institute; Guoan Zhang, Nantong University

5 Short Paper: Chirp Sequence versus OFDM Radar numerically Johannes Fink, Friedrich K. Jondral, Karlsruhe Institute of Technology

6 Short Paper: Collision Scheduling for Cellular Networks with Spatial Connectivity Constraints Wenbo He, Boston University; Chen Feng, EPFL and Boston University; Bobak Nazer, Boston University

7 Short Paper: Effect of Non-Ergodic Channels on Wireless Fading-Based Key Generation Kiersten Kerby-Patel, University of Massachusetts Boston

8 Short Paper: Efficient Joint Operation of Advanced Radio Resource and Topology Management in Energy-Aware 5G Networks Salahedin Rehan, David Grace, University of York

9 Short Paper: Enhanced Throughput Capacity Scheme for Broadcasting Emergency Video in Vehicle Swarm Shihong, University of Science and Technology Beijing; Bader Alkandari, Worcester Polytechnic Institute; Zikang Wang, University of Science and Technology Beijing; Kaveh Pahlavan, Worcester Polytechnic Institute

10 Short Paper: Experimental Characterization of In Vivo Wireless Communication Channels Ali Fatih Demir, University of South Florida; Qammer Hussain Abbasi, Texas A&M University at Qatar; Zekeriyya Esat Ankarali, University of South Florida; Marwa Qaraqe, Texas A&M at Qatar; Erchin Serpedin, Texas A&M University; Huseyin Arslan, University of South Florida

11 Short Paper: Flexible GFDM implementation in FPGA with support to run-time reconfiguration Martin Danneberg, Nicola Michailow, Ivan Simões Gaspar, Dan Zhang, Gerhard Fettweis, Technische Universität Dresden

12 Short Paper: Impact of Inter-Cell Interference on Buffered Video Streaming Startup Delays Henrik Klessig, Gerhard Fettweis, Technische Universität Dresden

13 Short Paper: Intelligent Dynamic Spectrum Access in Cellular Systems with Asymmetric Topologies and Non-Uniform Traffic Loads Nils Morozs, Tim Clarke, David Grace, University of York

Monday, 7 September 2015 14:00-15:30 Carlton 2A: Performance Analysis of Spectrum Sensing 1 Analysis of Spectrum Utilization of Cognitive Radio

Networks in Nakagami Fading Channels Mohammed Abdel-Hafez, United Arab Emirates University; Khaled Shuaib, UAE University; Omkalthoum El-Bashir Hamed, Petroleum Institute

2 Erlang Capacity Performance Evaluation of Spectrum Adaptation Strategies in Cognitive Radio Networks S. Lirio Castellanos-López, Felipe A. Cruz-Pérez, CINVESTAV-IPN; Genaro Hernandez-Valdez, Universidad Autonoma Metropolitana; Mario E. Rivero-Ángeles, UPIITA-IPN

3 Incumbent User Active Area Detection for Licensed Shared Access Beeshanga Abewardana Jayawickrama, Eryk Dutkiewicz, Macquarie University; Markus Dominik Mueck, Intel Mobile Communications

4 Secondary User Interference Characterization for Underlay Networks Sachitha Kusaladharma, University of Alberta; Prasanna Herath, University of Alberta / TRLabs; Chintha Tellambura, University of Alberta

5 Throughput Analysis of a Hybrid MAC Protocol for WiFi-Based Heterogeneous Cognitive Radio Networks Hsi-Lu Chao, Tzung-Lin Li, Cheng-Che Chung, Sau-Hsuan Wu, National Chiao Tung University


Monday, 7 September 2015 14:00-15:30 Lewis 2B: Heterogeneous Networks I 1 Centralized cell cluster interference mitigation for dynamic

TDD DL/UL configuration with traffic adaptation for HTN networks Fanglei SUN, Alcatel-Lucent Shanghai Bell Co., Ltd.; Yan Zhao, R&I Institute, Alcatel-Lucent Shanghai Bell

2 Distributed Power Control for Two-tier Femtocell Networks with QoS Provisioning Based on Q-Learning Zhengfu Li, Zhaoming Lu, Wen Xiangming, Wenpeng Jing, Zhicai Zhang, Fengchao Fu, Beijing University of Posts and Telecommunications

3 Generic Architecture for Minimizing Drive Tests in Heterogeneous Networks Tuomas Hiltunen, Magister Solutions Ltd.; Riaz Uddin Mondal, University of Jyväskylä; Jussi Turkka, Magister Solutions; Tapani Ristaniemi, University of Jyväskylä

4 Perron-Frobenius Theory based Power Allocation in Heterogeneous Cloud Ratio Access Networks Kecheng Zhang, Beijing University of Posts and Telecommunications; Mugen Peng, Beijing University of Posts & Telecommunications; Chonggang Wang, InterDigital Communications; Shi Yan, Beijing University of Posts and Telecommunications

5 Configuration of Dual Connectivity with Flow Control in a Realistic Urban Scenario Hua Wang, Guillermo Pocovi, Aalborg University; Claudio Rosa, Nokia Siemens Networks; Klaus I. Pedersen, Nokia Networks

Monday, 7 September 2015 14:00-15:30 Griffin 2C: Small Cells 1 Delay Modeling for Heterogeneous Backhaul Technologies

Gongzheng Zhang, Zhejiang University; Tony Q.S. Quek, Singapore University of Technology and Design; Aiping Huang, Zhejiang University; Marios Kountouris, Huawei Technologies; Hangguan Shan, Zhejiang University

2 Efficient Heuristics for Clustering and Power Allocation in Small Cell Networks Elmahdi Driouch, Concordia University; Wessam Ajib, University of Quebec at Montreal; Chadi Assi, Concordia University

3 Full Duplex Communication Under Traffic Constraints for 5G Small Cells Marta Gatnau, Davide Catania, Gilberto Berardinelli, Nurul Huda Mahmood, Preben E. Mogensen, Aalborg University

4 Proactive delay-minimizing scheduling for 5G Ultra Dense Deployments Reza Holakouei, Patrick Marsch, Nokia Networks, Radio research

5 Study on Scheduling Techniques for Ultra Dense Small Cell Networks Amir Hossein Jafari, University of Sheffield / Bell Laboratories Alcatel Lucent; David Lopez, Bell Labs Alcatel-Lucent; Ming Ding, National ICT Australia; Jie Zhang, University of Sheffield

Monday, 7 September 2015 14:00-15:30 Marina Room 1 2D: Channel Analysis and Algorithms 1 Comparison of UTD Coefficients for Delay Spread and

Angle Spread Estimation using Game Engines in MIMO Andres Navarro, Universidad Icesi; Dinael Guevara, Francisco de Paula Santander University; Jorge Gomez, Universidad del Magdalena

2 Efficiency Improvement for Path Detection and Tracking Algorithm in a Time-Varying Channel Rui Wang, Olivier Renaudin, Ricardo M. Bernas, Andreas F. Molisch, University of Southern California

3 Indoor Ultra-Wideband Channel Characteristics considering Human Body Effect Jae-Hyun Lee, Young-Hoon Kim, Seong-Cheol Kim, Seoul National University

4 Level-Crossing Rate and Average Duration of Fades in Non-Isotropic Hoyt Fading Channels with Applications to Selection Combining Diversity Wiem Dahech, Nazih Hajri, Néji Youssef, Sup'Com; Matthias Pätzold, University of Agder; Tsutomu Kawabata, University of Electro-Communications

5 Theoretical Modeling of Multi-Coil Channels in Near Field Magneto-Inductive Communication Niaz Ahmed, Yahong Rosa Zheng, David Pommerenke, Missouri University of Science and Technology

Monday, 7 September 2015 14:00-15:30 Marina Room 2 2E: Estimation 1 Estimation of Multi-path Channels by Using the

Annihilating Filter Method Shuntaro Ito, Dongshin Yang, Yutaka Jitsumatsu, Kyushu University

2 Joint Carrier Frequency Offset, Sampling Time Offset and Channel Estimation for OFDM-OQAM Systems Ali Baghaki, Benoit Champagne, McGill University

3 Iterative Reception Employing Sparse Channel Estimation for OFDM Systems Yuta Takahashi, Kazuhiko Fukawa, Yuyuan Chang, Hiroshi Suzuki, Tokyo Institute of Technology

4 Pilot-aided Channel Estimation for Universal Filtered Multi-Carrier Xiaojie Wang, University of Stuttgart; Thorsten Wild, Frank Schaich, Bell Labs, Alcatel-Lucent; Stephan ten Brink, University of Stuttgart

5 Time-Frequency Multiplex Estimator and Low Complexity Equalizer Design for Multi-Carrier Systems with Tx/Rx IQ Imbalance, CFO and Multipath Fading Channels Juinn-Horng Deng, Kuang-Min Lin, Kuo-Tai Feng, Yuan Ze University

Monday, 7 September 2015 14:00-15:30 Marina Room 3 2F: Cellular and Local Area Networks 1 Enhanced Interference Cancellation of Cell Specific

Reference Signals for LTE-A Alexei Davydov, Gregory Morozov, Intel Corporation

2 An Accurate Low Complexity Method for Studying Quantization Effects in Base Station Cooperation Systems João Guerreiro, Instituto de Telecomunicações, Universidade Nova de Lisboa; Filipe Casal Ribeiro, ISCTE-IUL; Rui Dinis, Universidade Nova de Lisboa

3 Non-Cooperative Compute-and-Forward Strategies in Gaussian Multi-Source Multi-Relay Networks Johannes Richter, Technische Universität Dresden; Jan Hejtmanek, Czech Technical University in Prague; Eduard Jorswieck, TU Dresden; Jan Sykora, Czech Technical University in Prague

4 A Multi-Replica Decoding Technique for Contention Resolution Diversity Slotted Aloha Huyen-Chi Bui, ISAE, Toulouse; Karine Zidane, University of Toulouse, ISAE/DMIA & TéSA; Jerome Lacan, ISAE; Marie-Laure Boucheret, IRIT/ENSEEIHT

Monday, 7 September 2015 14:00-15:30 Marina Room 4 2G: Vehicular Networks 1 Adaptive Expiration Time for Dynamic Beacon Scheduling

in Vehicular Ad-hoc Networks Maryam Alotaibi, Hussein T. Mouftah, University of Ottawa

2 Leveraging Parked Cars as Urban Self-Organizing Road-Side Units Andre B. Reis, Carnegie Mellon University; Susana Sargento, IT - Universidade de Aveiro

3 Supporting Deterministic Medium Access Control in Wireless Vehicular Communications Cristovão Cruz, Tampere University of Technology; Joaquim Ferreira, Arnaldo Oliveira, University of Aveiro


4 Survey and classification of cooperative automated driver assistance systems Oliver Sawade, Fraunhofer FOKUS; Ilja Radusch, Fraunhofer FOKUS / TU Berlin - DCAITI

5 Synchronization using a Pseudo-Circular Preamble for Generalized Frequency Division Multiplexing in Vehicular Communication Ivan Simões Gaspar, Andreas Festag, Gerhard Fettweis, Technische Universität Dresden

Monday, 7 September 2015 14:30-15:30 Harbor Ballroom 1 2H: Short Papers II 1 Short Paper: Intelligent Secondary LTE Spectrum Sharing

in High Capacity Cognitive Cellular Systems Nils Morozs, Tim Clarke, David Grace, University of York

2 Short Paper: Introduction of Vigilante Players in Cognitive Networks with Moving Greedy Players Khashayar Kotobi, Sven G. Bilen, Pennsylvania State University

3 Short Paper: Near-ML Detection for MIMO-GFDM Maximilian Matthe, Ivan Simões Gaspar, Dan Zhang, Gerhard Fettweis, Technische Universität Dresden

4 Short Paper: On Quantizer Design for Distributed Estimation in Bandwidth Constrained Networks Alireza Sani, Azadeh Vosoughi, University of Central Florida

5 Short Paper: Planning and Optimization of Cellular Networks Through Centroidal Voronoi Tessellations David González G, Jyri Hämäläinen, Aalto University

6 Short Paper : Radio Resource and Interference Management in Uplink Multi-Cell MU-MIMO Systems with ZF Post-processing Aasem N. Alyahya, Jacek Ilow, Dalhousie University

7 Short Paper: Reduced Complexity Calculation of LMMSE Filter Coefficients for GFDM Maximilian Matthe, Ivan Simões Gaspar, Dan Zhang, Gerhard Fettweis, Technische Universität Dresden

8 Short Paper: Secure Multi-User Transmission using CoMP Directional Modulation Mawran Yusuf, Istanbul Medipol University; Huseyin Arslan, Istanbul Medipol University; University of South Florida

9 Short Paper: Securing Neighbourhood Discovery for Mobile Ad-Hoc Networks Nuwan Weerasinghe, Alexandros Ladas, Olayinka Adigun, Eckhard Pfluegel, Christos Politis, Kingston University

10 Short Paper: SIC-MMSE Detection for Filter Bank Multicarrier Systems Sebastian Koslowski, Friedrich K. Jondral, Karlsruhe Institute of Technology

11 Short Paper: TDD Channel Calibration for MIMO Interference Networks Xing Li, Youjian Liu, University of Colorado; Xinming Huang, Worcester Polytechnic Institute

12 Short Paper: Improved Braking Control of the Cooperative Adaptive Cruise Control System in Low Speed Traffic Conditions Keng-Hao Liu, Department of Mechanical Engineering; Po-Fu Wu, National Taiwan University; Yu-Shen Tsai, Department of Mechanical Engineering; Tyler Ma, Andy An-Kai Jeng, Industrial Technology Research Institute; Kang Li, National Taiwan University

13 Short Paper: Wireless Sensor Technologies and Networks in Swarms of Aquatic Surface Drones Fernando J Velez, Aleksandra Nadziejko, Instituto das Telecomunicações - DEM, Universidade da Beira Interior; Anders Lyhne Christensen, Sancho Oliveira, Tiago Rodrigues, Vasco Costa, Miguel Duarte, Instituto das Telecomunicações - DCTI, ISCTE-IUL

Monday, 7 September 2015 16:00-17:30 Carlton 3A: Cognitive Communications 1 Test & Evaluation of Cognitive and Dynamic Spectrum

Access Radios using The Cognitive Radio Test System Eric Sollenberger, Ferdinando Romano, Carl Dietrich, Virginia Tech

2 ICI-Resilient Cognitive Radio Sequences for Transform Domain Communication Systems Su Hu, University of Electronic Science and Technology of China; Zilong Liu, Nanyang Technological University; Shu Fang, University of Electronic Science and Technology of China; Yong Liang Guan, Nanyang Technological University; Gang Wu, Yue Xiao, University of Electronic Science and Technology of China

3 MC-MAC: An Efficient Multichannel MAC Protocol for Cognitive Radio Ad Hoc Networks Aghus Sofwan, Salman AlQahtani, King Saud University

4 Optimization of Cognitive MAC Frame Structure from An Energy Efficiency Perspective Jing Zhang, Nanjing University of Posts and Telecommunications

5 Time synchronization for spectrally shaped NC-OFDM by Envelope Fluctuation Detection Pawel Kryszkiewicz, Hanna Bogucka, Poznan University of Technology

Monday, 7 September 2015 16:00-17:30 Lewis 3B: Heterogeneous Networks II 1 QoS-Guaranteed User Association in HetNets via

Semidefinite Relaxation Hamza Umit Sokun, Ramy H. Gohary, Halim Yanikomeroglu, Carleton University

2 Throughput-Based Traffic Steering in LTE-Advanced HetNet Deployments Lucas Chavarria Gimenez, Aalborg University; Istvan Z. Kovacs, Nokia Networks; Jeroen Wigard, Nokia; Klaus I. Pedersen, Nokia Networks

3 Two Novel Handover Algorithms with Load Balancing for Heterogeneous Network Rintaro Yoneya, Abolfazl Mehbodniya, Fumiyuki Adachi, Tohoku University

4 Uplink Performance Analysis for Heterogeneous Stochastic Cellular Networks Jing Zhang, Yili Xin, Qiang Li, Xiaohu Ge, Huazhong University of Science and Technology

5 A Study on Moving Cell in 5G Cellular System Hiroto Yasuda, Akira Kishida, Jiyun Shen, Yoshifumi Morihiro, Yasufumi Morioka, Satoshi Suyama, Akira Yamada, Yukihiko Okumura, Takahiro Asai, NTT DOCOMO, INC.

Monday, 7 September 2015 16:00-17:30 Griffin 3C: Interference Management I 1 A Novel Frequency Reuse Scheme for Future Wireless

Networks Jinkang Zhu, University of Science and Technology of China; Na Deng, University of Science and Technology; Ming Zhao, University of Science and Technology of China

2 Experimental Evaluation of Interference Suppression Receivers and Rank Adaptation in 5G Small Cells Dereje Assefa Wassie, Gilberto Berardinelli, Davide Catania, Fernando Tavares, Troels B. Sørensen, Preben E. Mogensen, Aalborg University


3 Implication of RF EMF Exposure Limitations on 5G Data Rates Above 6 GHz Torbjörn Wigren, Davide Colombi, Ericsson AB; Björn Thors, Ericsson Research; Jan-Erik Berg, Ericsson AB

4 Interference and SINR in Dense Terahertz Networks Vitaly Petrov, Dmitri Moltchanov, Tampere University of Technology; Dr. Yevgeni Koucheryavy, Tampere University of Technology, Finland

5 Self-Interference Cancellation with RF Impairments Suppression for Full-Duplex Systems Yulong Pan, Cheng Zhou, Beijing University of Posts and Telecommunications; Gaofeng Cui, Beijing University of Posts and Teleommunications; Wang Weidong, Xiuhua Li, Beijing University of Posts and Telecommunications

Monday, 7 September 2015 16:00-17:30 Marina Room 1 3D: Channel Modeling II 1 Propagation of Multipath Components at an Urban

Intersection Kim Mahler, Wilhelm Keusgen, Fraunhofer Heinrich Hertz Institute; Fredrik Tufvesson, Lund University; Thomas Zemen, AIT Austrian Institute of Technology; Giuseppe Caire, Technische Universität Berlin

2 Radio Wave Propagation Characterization Between Adjacent Decks on Board Ships Hanna Farhat, Lebanese University; Hussein Kdouh, IETR; Christian Brousseau, University of RENNES1, IETR Lab; Gheorghe Zaharia, IETR/INSA de Rennes; Guy GRUNFELDER, IETR; Ghais El Zein, IETR/INSA de Rennes

3 Large Scale Characteristics of Ship-to-Land Propagation at 5.2 GHz in Harbor Environment Wei Wang, Thomas Jost, Ronald Raulefs, German Aerospace Center

4 Stationarity Investigation of a LOS Massive MIMO Channel in Stadium Scenarios LiuLiu, Cheng Tao, Beijing Jiaotong University; David Matolak, University of South Carolina; Yanping Lu, Bo Ai, Houjin Chen, Beijing Jiaotong University

5 Statistical Analysis of Cars Induced Scattering in 60 GHz UWB Outdoor Channels Dajana Cassioli, University of L Aquila

Monday, 7 September 2015 16:00-17:30 Marina Room 2 3E: MIMO 1 Frequency-Domain Equalization for Single-Carrier SFBC

Diversity in a Frequency-Selective Fading Hiroyuki Miyazaki, Fumiyuki Adachi, Tohoku University

2 Frequency Domain Turbo Equalization with Iterative Channel Estimation for Single Carrier MIMO Underwater Acoustic Communications Zhenrui Chen, Tsinghua University; Yahong Rosa Zheng, Missouri University of Science and Technology; Jintao Wang, Jian Song, Tsinghua University

3 Mutual Information Bounds for MIMO Gaussian Channels Dongwoon Bai, Jungwon Lee, Samsung US R&D Center

4 Bit-Level List Generation for Iterative MIMO Receivers Dung-Rung Hsieh, Industrial Technology Research Institute; Wern-Ho Sheen, Chaoyang University of Technology; Jen-Yuan Hsu, Industrial Technology Research Institute

Monday, 7 September 2015 16:00-17:30 Marina Room 3 3F: Vehicular Communications 1 Basic Relationship between Channel Coherence Time and

Beamwidth in Vehicular Channels Vutha Va, Robert W. Heath Jr, University of Texas at Austin

2 Channel Estimation and Tracking Algorithms for Harsh Vehicle to Vehicle Environments Moustafa Medhat Awad, Karim G. Seddik, Ayman Elezabi, American University in Cairo

3 Analysis of Clipping Noise in Visible Light Communications Alparslan Fisne, Aselsan Inc.; Cenk Toker, Hacettepe University, Turkey

4 EXIT-Chart-Based Design of Irregular Precoded Power-Imbalanced Optical Spatial Modulation Naoki Ishikawa, Shinya Sugiura, Tokyo University of Agriculture and Technology

Monday, 7 September 2015 16:00-17:30 Marina Room 4 3G: Cloud Radio 1 Average Bit Error Rate and Sum Capacity in Heterogeneous

Cloud Radio Access Networks Yuanyuan Cheng, Shi Yan, Beijing University of Posts and Telecommunications; Jinhe Zhou, Beijing Information Science and Technology University; Mugen Peng, Beijing University of Posts & Telecommunications

2 DJP: Dynamic Joint Processing for Interference Cancellation in Cloud Radio Access Networks Abolfazl Hajisami, Dario Pompili, Rutgers University

3 Joint Clusterization and Power Allocation for Cloud Radio Access Networks Yao-Chun Tsou, Pei-Rong Li, Jui-Hung Chu, Kai-Ten Feng, National Chiao Tung University

4 SNR Threshold for Distributed Antenna Systems in Cloud Radio Access Networks Ying He, Eryk Dutkiewicz, Gengfa Fang, Macquarie University; Markus Dominik Mueck, Intel Mobile Communications

Monday, 7 September 2015 16:00-17:30 Harbor Ballroom 1 3H: MIMO Detection 1 Improved Depth-First-Search Sphere Decoding Based On

LAS For MIMO-OFDM Systems Zhiheng Qin, Jin Xu, Tao Xiaofeng, Xiang Zhou, Beijing University of Posts and Telecommunications

2 Iterative MIMO Effective SNR Mapping for ML Decoder Abdelkader Medles, Cyril Valadon, Mediatek Inc.

3 Lattice-Reduction Aided Optimum and Sub-Optimum SIC Detection for MIMO Systems Sung-Ho Lim, Ji-Woong Choi, Daegu Gyeongbuk Institute of Science and Technology

4 Low-Complexity Detection for Generalized Pre-Coding Aided Spatial Modulation Nemanja Stefan Perovi?, Werner Haselmayr, Andreas Springer, Johannes Kepler University Linz

5 Low Complexity Metric for Joint MLD in Overloaded MIMO System Takayoshi Aoki, Yukitoshi Sanada, Keio University


Tuesday 8 September 2015 Tuesday, 8 September 2015 11:00-12:30 Carlton 4A: Cooperation in Cognitive Radio Networks 1 Hybrid TDD Access Scheme with Confidence Factor based

Weighted Cooperative Sensing in Massive MIMO System Peng Gao, Zhiquan Bai, Peihao Dong, Fantang Kong, Yingyan Su, Shandong University; Kyungsup Kwak, Inha University

2 Optimal Resource Allocation for CR Networks with Multi-Group Multicast Based on Inter-group and Inner-group Cooperation Transmission Wanming Hao, Shouyi Yang, Bing Ning, Zhengzhou University

3 Performance Enhancement of Cognitive Relay Networks using Regression Functions Kamel Tourki, Huawei Technologies, France Research Center; Mazen O. Hasna, Qatar University

4 Reporting Channel Design and Analysis in Cooperative Spectrum Sensing for Cognitive Radio Networks Raed Alhamad, Huaxia Wang, Yu-Dong Yao, Stevens Institute of Technology

5 Resource Optimization Using Bandwidth-Power Product in Relay Aided Cognitive Radio Networks Bo Chen, Minjian Zhao, Ming Lei, Lei Zhang, Zhejiang University

Tuesday, 8 September 2015 11:00-12:30 Lewis 4B: LTE 1 Impact of AWGN Channel on LTE RACH Throughput

Ivan Vukovic, Jukka Tormalehto, Shirish Nagaraj, Thomas Frey, Nokia Networks

2 Interference Modulation Order Detection with Supervised Learning for LTE Interference Cancellation Tze Ping Low, Jangwook Moon, MediaTek

3 Multi-rate Uplink Channel Prediction and Enhanced Link Adaptation for VoLTE David Sandberg, Torbjörn Wigren, Ericsson AB

4 Network-wide Optimization of Uplink Fractional Power Control in LTE Networks Zezhou Luo, Hongcheng Zhuang, Jietao Zhang, Ruslan Gilimyanov, Huawei Technologies Co. Ltd

5 Performance Evaluation of Superposition Coding in Downlink LTE Chien-Hwa Hwang, Min Wu, Tze Ping Low, Yi-Ju Liao, Lung-Sheng Tsai, MediaTek

Tuesday, 8 September 2015 11:00-12:30 Griffin 4C: Software Defined and M2M Networks 1 A Scalable and Robust OpenFlow Channel for Software

Defined Wireless Access Networks Kien Nguyen, Kentaro Ishizu, Homare Murakami, Fumihide Kojima, Hiroyuki Yano, National Institute of Information and Communications Technology

2 A Software Defined Semi Distributed Mobility Management System Based on Layer 2 Backhaul Network Jyotirmoy Banik, Yiding Luo, Jonathan Seawright, Junjie Xu, Marco Tacca, Andrea Fumagalli, The University of Texas at Dallas; Behcet Sarikaya, Li Xue, Huawei Technologies Limited

3 OpenFlow versus Commercial Load Balancers in a Campus Network Ashkan Ghaffarinejad, Violet R. Syrotiuk, Arizona State University

4 Device-to-Device Communication with Dirty Paper Coded Simultaneous Transmission Hsuan-Jung Su, Ping-Tsung Tu, Borching Su, Hsien-Bo Tseng, National Taiwan University

5 Optimal Mobile Association in Device-to-Device-enabled Heterogeneous Networks Sa Xiao, Daquan Feng, University of Electronic Science and Technology of China; Yi Yuan-Wu, Orange Lab Network; Geoffrey Y. Li, Georgia Tech; Wei Guo, Shaoqian Li, University of Electronic Science and Technology of China

Tuesday, 8 September 2015 11:00-12:30 Marina Room 1 4D: Satcom Systems and Innovations 1 3D Beamforming for Spectral Coexistence of Satellite and

Terrestrial Networks Shree Krishna Sharma, Symeon Chatzinotas, Joel Grotz, Newtec Cy; Bjorn Ottersten, University of Luxembourg

2 Capacity Analysis of a Land Mobile Satellite System Using Dual-polarized Antennas for Diversity Ting Qi, Wang Youzheng, Tsinghua University

3 Current Situation and Future Innovations in Arctic Communications Simon Plass, Federico Clazzer, German Aerospace Center (DLR); Fritz Bekkadal, Gersemia

4 Remote-Sensing Image Compression Using Priori-information and Feature Registration Liu Xijia, Xiaoming Tao, Ge Ning, Tsinghua University

5 Power Control for Satellite Uplink and Terrestrial Fixed-Service Co-existence in Ka-band Eva Lagunas, Shree Krishna Sharma, Maleki, Symeon Chatzinotas, Bjorn Ottersten, University of Luxembourg

Tuesday, 8 September 2015 11:00-12:30 Marina Room 2 4E: mmWave 1 Average Error Probability Analysis in mmWave Cellular

Networks Esma Turgut, Mustafa Cenk Gursoy, Syracuse University

2 Beam Switching for Millimeter Wave Communication to Support High Speed Trains Vutha Va, University of Texas at Austin; Xinchen Zhang, Qualcomm Inc.; Robert W. Heath Jr, University of Texas at Austin

3 Demonstration of Analog Millimeter-wave Fronthaul Link for 64-QAM LTE Signal Transmission Jingjing Chen, Bengt-Erik Olsson, Jonas Hansryd, Ericsson Research; Irwin Gerszberg, AT&T Labs

4 Investigating the IEEE 802.11ad Standard for Millimeter Wave Automotive Radar Preeti Kumari, The University of Texas at Austin; Nuria G. Prelcic, Universidade de Vigo; Robert W. Heath Jr, University of Texas at Austin

5 Outage Performance of Dual-Hop AF Relaying Systems with Mixed MMW RF and FSO Links Phuc V. Trinh, Anh T. Pham, University of Aizu

Tuesday, 8 September 2015 11:00-12:30 Marina Room 3 4F: Physical Layer Security I 1 A Novel Transform for Secret Key Generation in Time-

varying TDD Channel under Hardware Fingerprint Deviation Guyue Li, Aiqun Hu, Southeast University; Yaning Zou, Tampere University of Technology; Linning Peng, Southeast University; Mikko Valkama, Tampere University of Technology

2 A Secure Transmission Scheme based on the Twice Channel Estimation for the Pilot Contamination Shengbin Lin, Kaizhi Huang, Minglin Zhu, Wen Wang, Jianhua Peng, NDSC


3 Bringing PHY-based Key Generation into the Field: An Evaluation for Practical Scenarios Rene Guillaume, Robert Bosch GmbH; Fredrik Winzer, Christian T. Zenger, Christof Paar, Horst Görtz Institute for IT-Security; Andreas Czylwik, University of Duisburg-Essen

4 Secure Transmission Scheme for SWIPT in MISO Broadcast Channel with Confidential Messages and External Eavesdroppers Haiyang Zhang, Yongming Huang, Chunguo Li, Luxi Yang, Southeast University

Tuesday, 8 September 2015 11:00-12:30 Marina Room 4 4G: Interference Management II 1 Dynamic Configuration of the Almost Blank Subframes in

Heterogeneous Networks Jun Shi, Xi?an Jiaotong University; Xia Wang, Li Sun, Xi'an Jiaotong University

2 Dynamic ICIC in LTE-Advanced Networks for Inter-Cell Interference Mitigation Zhilan Xiong, Alcatel-Lucent Shanghai Bell; Min Zhang, Matthew Baker, Alcatel-Lucent; Huan Sun, R&I, Alcatel-Lucent Shanghai Bell

3 FFR-aided coordinated multipoint transmission in downlink multicell MIMO-OFDMA networks Javier Pastor-Pérez, Felip Riera-Palou, Guillem Femenias, University of the Balearic Islands

4 Field evaluation of eICIC using highly accurate GPS based synchronization scheme Takao Okamawari, Shota Shiobara, Yasuhiro Nagai, Teruya Fujii, SOFTBANK MOBILE Corp.

Tuesday, 8 September 2015 11:00-12:00 Harbor Ballroom 1 4H: Positioning in Transportations 1 Evaluation, Design and Application of Object Tracking

Technologies for Vehicular Technology Applications Che-Tsung Lin, Long-Tai Chen, ITRI; Yuan-Fang Wang, UCSB

2 Direction Detection of Users Independent of Smartphone Orientations Rico Kusber, Abdul Qudoos Memon, Dennis Kroll, Klaus David, University of Kassel

3 5G / LTE based protection of vulnerable road users: Detection of crossing a curb Andreas Jahn, Klaus David, Sebastian Engel, University of Kassel

Tuesday, 8 September 2015 11:00-12:30 Harbor Ballroom 2 4I: Vehicular Communication System Design 1 An Integrated Framework for Topology Design of CAN

Networks under Real-Time Constraints Ryo Kurachi, Gang Zeng, Yang Chen, Hiroaki Takada, Nagoya University

2 Wireless Relay System for Disaster Response using Balloon Junichi Nakajima, SoftBank Mobile

3 Cell Structure for High-speed Land-mobile Communications Shusaku Umeda, Akihiro Okazaki, Hiroshi Nishimoto, Kaoru Tsukamoto, Kanako Yamaguchi, Atsushi Okamura, Mitsubishi Electric Corporation

4 A Reliable Token-Based MAC Protocol for Delay Sensitive Platooning Applications ali balador, Polytechnic University of Valencia; Annette Böhm, Halmstad University; Elisabeth Uhlemann, Malardalen University; Carlos T. Calafate, Juan-Carlos Cano, Polytechnic University of Valencia

Tuesday, 8 September 2015 11:00-12:30 Marina Foyer 4P: Recent Results I 1 A Cooperative Model for Enhancing Spectral Efficiency in

Two-Way Amplify-and-Forward Relaying Networks Ahmed H. Abd El-Malek, Salam A. Zummo, King Fahd University of Petroleum and Metal

2 Advertisement Delivery and Display in Vehicular Networks Carlo Borgiattino, Carla Fabiana Chiasserini, Francesco Malandrino, Politecnico di Torino; Matteo Sereno, Università degli Studi di Torino

3 An Improved Proportional Fair Scheduling in Downlink Non-Orthogonal Multiple Access System Eiji Okamoto, Nagoya Institute of Technology

4 A Novel Opportunistic NOMA Strategy in Downlink Coordinated Multi-Point Networks Yue Tian, Shani Lu, Andrew Nix, Mark Beach, University of Bristol

5 Compressive Sensing Based Multi-User Detection for Uplink Grant-Free Non-Orthogonal Multiple Access Bichai Wang, Linglong Dai, Tsinghua University; Yifei Yuan, ZTE Corporation; Zhaocheng Wang, Tsinghua University

6 CS4VRU: A centralized Cooperative Safety system for Vulnerable Road Users using heterogeneous networks Idoia de la Iglesia, Unai Hernandez-Jayo, Jagoba Perez, University of Deusto

7 Design of Dual-Band Microstrip Patch Antenna with Defected Ground Plane for Modern Wireless Applications Imad Ali, Academia Sinica and National Tsing Hua University; Ronald Y. Chang, Academia Sinica

8 Distributed Antennas Aided Secure Communication in MU-Massive-MIMO with QoS Guarantee Kaifeng Guo, Yan Guo, Gerd Ascheid, RWTH Aachen University

9 Evolutionary QR-based Traffic Sign Recognition System for Next-Generation Intelligent Vehicles Ehab Salahat, Hani Saleh, Andrzej Sluzek, Mahmoud Al-Qutayri, Baker Mohammed, Mohammed Ismail, Khalifa University

10 Exploring Smartphones as WAVE Devices Jeman Park, Jihye Kim, Seungho Kuk, Yongtae Park, Hyogon Kim, Korea University

11 Far Region Boundary Definition of Linear Massive MIMO Antenna Arrays LiuLiu, Beijing Jiaotong University; David Matolak, University of South Carolina; Cheng Tao, Yanping Lu, Houjin Chen, Beijing Jiaotong University

12 Frequency Domain aware Power Analysis Attack against Random Clock LSI for Secure Automotive Embedded Systems Masaya Yoshikawa, Yusuke Nozaki, Meijo University

Tuesday, 8 September 2015 14:00-15:30 Carlton 5A: Dynamic Spectrum Sharing 1 Simultaneous Transmission and Spectrum Sensing in OFDM

Systems Using Full-Duplex Radios Ville Syrjälä, Mikko Valkama, Markus Allen, Tampere University of Technology; Koji Yamamoto, Kyoto University

2 Spectrum Sharing Based on Truthful Auction in Licensed Shared Access Systems Huiyang Wang, Eryk Dutkiewicz, Gengfa Fang, Macquarie University; Markus Dominik Mueck, Intel Mobile Communications

3 Posterior Sampling for Opportunistic Spectrum Access with slow flat fading channels Suleman Alnatheer, Hong Man, Stevens Institute of Technology


4 A Spectrum Adaptive NC-CI/OFDM System Yang Zhao, Guosheng Yang, Jun Wang, Shaoqian Li, University of Electronic Science and Technology of China

5 Spectrum Trading in Cognitive Radio Networks Using Multistage Bayesian Game Feng-Tsun Chien, National Chiao Tung University; Ronald Y. Chang, Academia Sinica; Yu-Wei Chan, Chung Chou University of Science and Technology

Tuesday, 8 September 2015 14:00-15:30 Lewis 5B: Smart Road Traffic 1 Edge-level Real-time Traffic Estimation with Limited

Infrastructure Manish Chaturvedi, Sanjay Srivastava, DA-IICT, Gandhinagar, Gujarat, India

2 Flexible Vehicle Speed Control Algorithms for Eco-Driving Sanjiban Kundu, Sandipan Kundu, State University of New York at Buffalo

3 LTE Connectivity and Vehicular Traffic Prediction based on Machine Learning Approaches Christoph Ide, Fabian Hadiji, TU Dortmund University; Lars Habel, University Duisburg-Essen; Alejandro Molina, TU Dortmund University; Thomas Zaksek, Michael Schreckenberg, University Duisburg-Essen; Kristian Kersting, Christian Wietfeld, TU Dortmund University

4 Enhancing Traffic Flow by using Vehicle Dashboard Traffic Lights Mustafa Al-Mashhadani, Wei Shu, University of New Mexico; Min-You Wu, Shanghai Jiaotong University

5 Partial and Local Knowledge for Global Efficiency of Urban Vehicular Traffic Marie-Ange Lebre, Frederic Le Mouel, INSA Lyon; Eric Menard, Valeo

Tuesday, 8 September 2015 14:00-15:30 Griffin 5C: 5G I 1 A Flexible Frame Structure for 5G Wide Area

Klaus I. Pedersen, Frank Frederiksen, Nokia Networks; Gilberto Berardinelli, Aalborg University; Preben E. Mogensen, Nokia Networks / Aalborg University

2 A trial system for 5G wireless access Stefan Parkvall, Johan Furuskog, Erik Dahlman, Ericsson Research; Qiang Zhang, Ericsson; Yoshihisa Kishiyama, Atsushi Harada, Takehiro Nakamura, NTT DOCOMO, INC.

3 Simultaneous Wireless Information and Power Transfer with Finite-Alphabet Input Signals Tewodros A. Zewde, Mustafa Cenk Gursoy, Syracuse University

4 Towards Energy Efficient and Quality of Service Aware Cell Zooming in 5G Wireless Networks Hafiz Yasar Lateef, Qatar University; Muhammad Zeeshan Shakir, Muhammad Ismail, Texas A&M University at Qatar; Amr Mohamed, Qatar University; Khalid Qaraqe, Texas A&M University at Qatar

5 Uplink Contention Based Multiple Access for 5G Cellular IoT Gilles Charbit, Debby Lin, MediaTek Inc; I-Kang Fu, MediaTek Inc.

Tuesday, 8 September 2015 14:00-15:30 Marina Room 1 5D: Satcom Networks 1 A Low-Complexity Routing Algorithm Based on Load

Balancing for LEO Satellite Networks Xinmeng Liu, Beijing University of Posts and Telecommunications; Xuemei Yan, Beijing Institute of Spacecraft System Engineering; Zhuqing Jiang, Chao Li, Yuying Yang, Beijing University of Posts and Telecommunications

2 A Novel Routing Strategy Based on Fuzzy Theory for NGEO Satellite Networks Chao Li, Beijing University of Posts and Telecommunications; Chonghua Liu, Beijing Institute of Spacecraft System Engineering,

Beijing, China; Zhuqing Jiang, Xinmeng Liu, Yuying Yang, Beijing University of Posts and Telecommunications

3 Tailored Load-Aware Routing for Load Balance in Multilayered Satellite Networks Yu Wang, Min Sheng, Xidian University; King-Shan Lui, University of Hong Kong; Xijun Wang, Runzi Liu, Yan Zhang, Di Zhou, Xidian University

4 Satellite multicast for relieving terrestrial eMBMS: system-level study Nicolas Cassiau, CEA-Leti, Minatec Campus; Dimitri Kténas, CEA-Leti, Minatec campus

5 Performance analysis of UHF mobile satellite communication system experiencing ionospheric scintillation and terrestrial multipath fading Paulo Ferreira, Alexander M. Wyglinski, Worcester Polytechnic Institute

Tuesday, 8 September 2015 14:00-15:30 Marina Room 2 5E: Multicarrier Systems 1 A Simplified Method for Evaluating Clipping Effects on

Sampled OFDM Signals João Guerreiro, Rui Dinis, Paulo Carvalho, Universidade Nova de Lisboa

2 Effect of Clipping and Filtering with Distortionless PAPR Reduction for OFDM Systems Ryota Yoshizawa, Hideki Ochiai, Yokohama National University

3 Optimum Performance and Spectral Characterization of CE-OFDM Signals João Guerreiro, Rui Dinis, Paulo Carvalho, Universidade Nova de Lisboa

4 Single-Carrier Frequency Division Multiple Access With Anchor-Symbol Insertion Teng-Yuan Chang, Po-Heng Chou, Char-Dir Chung, National Taiwan University

5 Subcarrier Combining for An Analog Single-Carrier Transmission Thanh Hai Vo, Shinya Kumagai, Fumiyuki Adachi, Tohoku University

Tuesday, 8 September 2015 14:00-15:30 Marina Room 3 5F: Interference Management III 1 Simulation study on 2 hop-proportional fair scheduling and

eICIC in relay type 1 extended LTE-A networks Paul Arnold, Telekom Innovation Laboratories / City University London; Veselin Rakocevic, City University London; Joachim Habermann, Technische Hochschule Mittelhessen

2 Achievable Transmission Rates and Self-interference Channel Estimation in Hybrid Full-Duplex/Half-Duplex MIMO Relaying Dani Korpi, Tampere University of Technology; Taneli Riihonen, Columbia University; Katsuyuki Haneda, Aalto University; Koji Yamamoto, Kyoto University; Mikko Valkama, Tampere University of Technology

3 Alternate AF MIMO Relaying Systems with Full Inter-Relay Interference Cancellation Fadhel Alhumaidi, Jacek Ilow, Dalhousie University

4 A Novel Interference Management Scheme in Underlay D2D Communication Shuang Wang, Ronghui Hou, Xidian University; King-Shan Lui, University of Hong Kong; Hongyan Li, Jiandong Li, Xidian University

5 Intercell-Interference Cancellation and Neural Network Transmit Power Optimization for MIMO Channels Michael Andri Wijaya, Kazuhiko Fukawa, Hiroshi Suzuki, Tokyo Institute of Technology


Tuesday, 8 September 2015 14:00-15:30 Marina Room 4 5G: Massive MIMO I 1 Feedback Reduction and Efficient Antenna Selection for

Massive MIMO System Mouncef Benmimoune, University of Quebec at Montreal; Elmahdi Driouch, Concordia University; Wessam Ajib, University of Quebec at Montreal; Daniel Massicotte, UQTR - Universite du Quebec a Trois-Rivieres - Canada

2 Fingerprinting-Based Positioning in Distributed Massive MIMO Systems Vladimir Savic, Erik G Larsson, Linkoping University

3 Joint Optimal Number of RF chains and Power Allocation for Downlink Massive MIMO Systems Rami Hamdi, École de Technologie Supérieure; Wessam Ajib, University of Quebec at Montreal

4 Optimal Energy-Efficient Resource Allocation for Massive MIMO FDD Downlink System Yi Wang, Wenting Song, Chunguo Li, Yongming Huang, Shidang Li, Luxi Yang, Southeast University

5 Performance of Limited Feedback Strategies with Massive MIMO Frederick W. Vook, Bishwarup Mondal, Eugene Visotsky, Nokia Networks

Tuesday, 8 September 2015 14:30-15:30 Harbor Ballroom 1 5H: Location, Privacy, and Pattern Recognition 1 SVM-CASE: An SVM-based Context Aware Security

Framework for Vehicular Ad-hoc Networks Wenjia Li, New York Institute of Technology; Anupam Joshi, Tim Finin, University of Maryland Baltimore County

2 Path Hiding for Privacy Enhancement in Vehicular Ad-Hoc Networks Carsten Büttner, Adam Opel AG; Sorin A. Huss, Technische Universität Darmstadt

3 Optimal Placement and Power Allocation for Jammers in Wireless Mesh Networks Shruti Lall, University of Pretoria; Attahiru Alfa, University of Manitoba and University of Pretoria; Sunil Maharaj, University of Pretoria

Tuesday, 8 September 2015 14:00-15:30 Marina Foyer 5P: Recent Results II 1 Generalized LUI propagation model for UAVs

communications using terrestrial cellular networks Tiago Tavares, Pedro Sebastião, Nuno Souto, Francisco Cercas, Marco Ribeiro, Instituto das Telecomunicações; Americo M. C. Correia,

Institute for Telecommunications, ADETTI; Fernando J Velez, Instituto de Telecomunicações-DEM, Universidade da Beira Interior

2 High-Precision Wireless Indoor Localization via Weight-Learning Ensemble Support Vector Regression Yen-Kai Cheng, Hsin-Jui Chou, Ronald Y. Chang, Academia Sinica

3 Implementation and Evaluation of the ETSI Security Architecture for Cooperative Intelligent Transport Systems Elyes Ben Hamida, Wassim Znaidi, Hamid Menouar, Qatar Mobility Innovations Center

4 Improved Detection by Peak Shape Recognition Using Artificial Neural Networks Stefan Wunsch, Johannes Fink, Friedrich K. Jondral, Karlsruhe Institute of Technology

5 Interferometer for Measurements of the MIMO Satellite Channel at Ku-Band Kai-Uwe Storek, Christian A. Hofmann, Andreas Knopp, Munich University of the Bundeswehr

6 Low-Complexity 2D LMMSE Channel Estimation for OFDM Systems Yoojin Choi, Samsung US R&D Center; Jung Hyun Bae, Samsung Semiconductor Inc; Jungwon Lee, Samsung US R&D Center

7 Low-Complexity LSQR-Based Linear Precoding for Massive MIMO Systems Tian Xie, Tsinghua University; Zhaohua Lu, ZTE; Qian Han, Jinguo Quan, Tsinghua University

8 Low Complexity Soft Detection of High Order QAM with Prior Information Mojtaba Rahmati, Samsung Modem R&D Lab; Dongwoon Bai, Jungwon Lee, Samsung US R&D Center

9 Network Upgrade with LTE-Advanced Small Cells Zhuyan Zhao, Hao Guan, Jeroen Wigard, Nokia; SanMin Lee, Dae Hee Kim, Kyung Min Hwang, LG U+, Republic of Korea

10 On the performance of Tanner Graph based and Viterbi Decoding for Erasure Recovery Muhammad Moazam Azeem, Université Pierre et Marie Curie (UPMC), Paris; Abdul Baqi Khan, Jubail University College; Uzma Azeem, Yanbu University College

11 Optimal Energy-Efficient Relay Deployment for Two-way Relay System with Non-ideal Power Amplifier Xiang Zhou, Zhiheng Qin, Jiahui Liu, Beijing University of Post and Telecommunications

Tuesday, 8 September 2015 16:00-17:30 Carlton 6A: Localization in Ad Hoc Sensor Networks I 1 ACO-based Cache Locating Strategy for Content-Centric

Networking Wang Ning, Wu Muqing, Peng Li, Liu Hongbao, Beijing University of Posts and Telecommunications

2 Circuit Based Near-Field Localization: Calibration Algorithms and Experimental Results Eric Slottke, Armin Wittneben, Swiss Federal Institute of Technology (ETH) Zurich

3 Connectivity-Based Sensor Localization for Anisotropic Networks by Stress Relaxation Shigeo Shioda, Junya Komatsu, Keiichi Nishihara, Chiba University

4 Discovery Protocol For Peer Aware Communication Networks Huan-Bang Li, Ryu Miura, NICT

5 Distributed Deployment Strategies for Prioritized Coverage of a Field under Measurement Error and Limited Communication Capabilities Hamid Mahboubi, Fabrice Labeau, McGill University

Tuesday, 8 September 2015 16:00-17:30 Lewis 6B: Device to Device Communications 1 Delay-Optimal Distributed Resource Allocation for Device-

to-Device Communications Yiru Kuang, Lei Lei, Zhangdui Zhong, Beijing Jiaotong University

2 Distributed D2D Architecture for ITS Services in Advanced 4G Networks thouraya toukabri, Orange Labs; Adel Mounir Said, National Telecommunication Institute (NTI); Emad Abd-Elrahman, Institute Mines-Telecom; Hossam Afifi, Telecom SudParis

3 Energy-Efficient MIMO Precoding and Power Allocation for Device-to-Device Underlay Communication in Cellular Networks Bo Chen, Minjian Zhao, Ming Lei, Lei Zhang, Zhejiang University


4 Primary Synchronization Signal Detection Method for Device-to-device in LTE-Rel 12 and beyond Ankit Bhamri, Nokia Networks; Zexian Li, Nokia at Espoo; Lars Lindh, Nokia Technologies; Cássio Ribeiro, Nokia Research Center

Tuesday, 8 September 2015 16:00-17:30 Griffin 6C: 5G II 1 Outage probability of underlay cognitive radio networks

with SWIPT-enabled relay Gyeongrae Im, Jae Hong Lee, Seoul National University

2 Resource Allocation with Spectrum Aggregation for Wireless Virtual Network Embedding Fu-Te Hsu, Chai-Hien Gan, Industrial Technology Research Institute

3 The Smart Grid and Future Mobile Networks: Integrating Renewable Energy Sources and Delay Tolerant Users Hussein Al Haj Hassan, Samantha Gamboa, Loutfi Nuaymi, Alexander Pelov, Nicolas Montavont, Telecom Bretagne

4 WBANs-Spa: An Energy Efficient Relay Algorithm for Wireless Capsule Endoscopy Dan Liu, Dalian Ocean University; Yishuang Geng, Guanxiong Liu, Mingda Zhou, Kaveh Pahlavan, Worcester Polytechnic Institute

5 Energy Allocation for Sensing and Transmission in WSNs with Energy Harvesting Tx/Rx Amina Hentati, University of Quebec at Montreal; Fatma Abdelkefi, SUP'COM; Wessam Ajib, University of Quebec at Montreal

Tuesday, 8 September 2015 16:00-17:30 Marina Room 1 6D: Satcom Channels, Signal Processing and Implementations 1 Novel Scheme of Orthogonal Convolutional Coding and

Non-iterative Decoding for Mobile Satellite Communication Systems Xiangming Meng, Sheng Wu, Linling Kuang, Zuyao Ni, Jianhua Lu, Tsinghua University

2 Quickest Detection Framework for Signal Integrity Monitoring in Low-Cost GNSS receivers Daniel Egea-Roca, Gonzalo Seco-Granados, Jose A. Lopez-Salcedo, Universitat Autonoma de Barcelona

3 Receiver Design for FTN Signaling Transmission in DVB-S2 Standard Pansoo Kim, Doeck-Gil Oh, ETRI

4 Message Passing Approach to Regularized Zero-Forcing Precoding in Multibeam Satellite Systems Xiangming Meng, Sheng Wu, Linling Kuang, Jianhua Lu, Tsinghua University

5 Symbol Error Analysis of Distributed Space-Time Coded Hybrid Satellite-Terrestrial Cooperative Networks Yuhan Ruan, Yongzhao Li, Hailin Zhang, Ying Li, Xidian University; Wenhuan Wang, Wenyan Wang, ZTE Corporation

Tuesday, 8 September 2015 16:00-17:30 Marina Room 2 6E: Multi-User Techniques 1 Per-Chip Multi-User Detection for SFH/BPSK Systems

Ren Yinpeng, Zuyao Ni, Linling Kuang, Jianhua Lu, Tsinghua University

2 Space-Time Code Division Multiple Access based on Spatial Modulation Megumi Fukuma, Koji Ishii, Kagawa University

3 Multicell Multicast with Joint Beamforming and Power Allocation Guan-Wen Hsu, Shuyu Liao, Hsuan-Jung Su, Phone Lin, National Taiwan University

4 A Novel Modulo Loss Suppression Scheme Employing Theoretical BER Formula for MU-MIMO THP Systems Kei Nishimura, Tomoki Maruko, Waseda University; Hiromichi Tomeba, Takashi Onodera, Minoru Kubota, Sharp Corporation; Fumiaki Maehara, Fumio Takahata, Waseda University

Tuesday, 8 September 2015 16:00-17:30 Marina Room 3 6F: Relaying I 1 Cooperative Relaying in Underlay Cognitive Systems with

TAS/MRC, Spatial Correlation and Hardware Impairments Nikolaos I. Miridakis, University of Piraeus and Technological Education Institute of Piraeus; Dimitrios D. Vergados, University of Piraeus; Angelos Michalas, Technological Education Institute of Western Macedonia

2 Ergodic Rate Analysis of Power Allocation Schemes in Two-way Decode-and-Forward Relay Systems Chen Chen, Yehua Yang, Peking University; Lin Bai, Beihang University (BUAA); Ye Jin, Peking University; Jinho Choi, Gwangju Institute of Science and Technology

3 Novel Performance Analysis of Multi-Access MIMO Relay Cooperative RM-DCSK over Nakagami-m Fading Subject to AWGGN Ehab Salahat, Khalifa University; Dina Shehada, Chan Yeob Yeun, KUSTAR

4 On the Performance of Dual-Hop AF Relaying Over Fading Channels With Arbitrary Parameters Samy S. Soliman, University of British Columbia; Norman C. Beaulieu, Beijing University of Posts and Telecommunications (BUPT)

5 Performance Study of Multihop Transmission Schemes in a Binomial Interference Field Valentine Aalo, Florida Atlantic University; Kostas Peppas, National Centre for Scientific Research "Demokritos; George Efthymoglou, University of Piraeus

Tuesday, 8 September 2015 16:00-17:30 Marina Room 4 6G: VANETs 1 A Redundancy-based Protocol for Safety Message

Dissemination in Vehicular Ad Hoc Networks Imen Achour, University of Carthage, Supcom; Tarek Bejaoui, University of Carthage; Anthony Busson, University of Lyon 1; Sami Tabbane, Sup'Com Tunis

2 BRNT: Broadcast Protocol with Road Network Topology for Urban Vehicular Ad Hoc Networks Keiji Obara, Ryosuke Akamatsu, Hiroshi Shigeno, Keio University

3 Enhancement and Analysis of VANET One-hop Event-driven Emergency Services Xiaomin Ma, Oral Roberts University

4 First development of a DSRC 5.9GHz On-Vehicle Coverage Capability Brian Gallagher, Denso International America, Inc.

5 Automation for On-road Vehicles: Use Cases and Requirements for Radio Design Guillermo Pocovi, Mads Lauridsen, Aalborg University; Beatriz Soret, Klaus I. Pedersen, Nokia Networks; P. E. Mogensen, Nokia Solutions & Networks

Tuesday, 8 September 2015 16:00-17:30 Harbor Ballroom 1 6H: LTE-Advanced 1 Dynamic Point Selection Schemes for LTE-A Networks with

Load Imbalance Richa Gupta, Nokia; Balamurali Natarajan, Suresh Kalyanasundaram, Nokia Networks

2 Enhancing Vertical Sectorization Performance with eICIC in AAS Based LTE-A Deployment Dereje Woldemedhin Kifle, Bernhard Wegmann, Nokia Networks; Fasil Berhanu Tesema, Nokia Solutions and Networks, Technical University


of Dresden; Ingo Viering, Nomor Research GmbH; Anja Klein, Technische Universitaet Darmstadt

3 Field Experiments on Combination of Downlink CoMP and Smart Vertical MIMO in LTE-Advanced Daisuke Kurita, Yuki Inoue, Yoshihisa Kishiyama, Yukihiko Okumura, NTT DOCOMO, INC.

4 On Improving Clock Synchronization Accuracy for LTE-A Networks Venmani Daniel Philip, Orange Labs, Orange

Tuesday, 8 September 2015 16:00-17:30 Marina Foyer 6P: Recent Results III 1 Ownership-Aware Software-Defined Backhauls in Next-

Generation Cellular Networks Francesco Malandrino, Politecnico di Torino; David Hay, The Hebrew University of Jerusalem

2 Performance Analysis of Dense Relay Network Khaled Y. Ahmed, Ahmed S. Ibrahim, Ahmed Hesham Mehana, Cairo University; Khaled Elsayed, Cairo University and Sysdsoft

3 Pilot Reuse for Device-to-Device Underlay Massive MIMO Systems Xinxin Liu, Qiang He, Yunzhou Li, Limin Xiao, Jing Wang, Tsinghua University

4 Priority Based Energy Aware (PEA) Routing Protocol for WBANs Sadaf Talha, Rizwan Ahmad, Adnan Khalid, National University of Sciences and Technology

5 Prolong Lifetime of Dynamic Sensor Network by an Intelligent Wireless Charging Vehicle Shuo-Han Chen, Tseng-Yi Chen, National Tsing Hua University

6 Recent Advances in VANET Security: A Survey Lina Bariah, Khalfa University; Dina Shehada, KUSTAR; Ehab Salahat, Khalifa University; Chan Yeob Yeun, KUSTAR

7 Secondary User Satisfying Primary User Rate Constraint for Cognitive Radio Aaqib Patel, S. N. Merchant, IIT-Bombay; Mohammed Zafar Ali Khan, U.B.Desai, IIT-Hyderabad

8 Secure Probability Map: Transmission Policy Design for Passive Eavesdroppers in Correlated Channels Huijun Li, Zekai Liang, RWTH Aachen University; Gunes Kurt, Istanbul Technical University; Gerd Ascheid, Guido Dartmann, RWTH Aachen University

9 Simultaneous Multi-Channel Reconstruction for TDS-OFDM Systems Qian Han, Wenqian Shen, Zhen Gao, Tsinghua University

10 Optimization of Demand Hotspot Capacities using Switched Multi-Element Antenna Equipped Small Cells Hamed Ahmadi, Danny Finn, Trinity College Dublin; Rouzbeh Razavi, Holger Claussen, Alcatel Lucent; Luiz DaSilva, Trinity College Dublin

11 UWB Marine Engine Telemetry Sensor Networks: Enabling Reliable Low-Complexity Communication Eric Slottke, Swiss Federal Institute of Technology (ETH) Zurich; Marc Kuhn, ETH Zurich; Armin Wittneben, Swiss Federal Institute of Technology (ETH) Zurich; Heinrich Luecken, P3 Group; Carmelo Cartalemi, Winterthur Gas & Diesel Ltd.

Wednesday 9 September 2015 Wednesday, 9 September 2015 11:00-12:30 Carlton 7A: Electric and Smart Vehicles 1 Present and Future Performance and Applications of

Supercapacitors in Electric and Hybrid Vehicles Andrew Burke, Hengbing Zhao, University of California - Davis

2 Method for Reducing Uncertainties of Predictive Range Estimation Algorithms in Electric Vehicles Achim Enthaler, AUDI AG / Karlsruhe Institute of Technology; Frank Gauterin, Karlsruhe Institute of Technology

3 A Case Study on Using Probabilistic Verification to Find Failures in a Cooperative Driving Application Shou-pon Lin, N. F. Maxemchuk, Columbia University

4 InfoRank: Information-Centric Autonomous Identification of Popular Smart Vehicles Junaid Ahmed Khan, Université Paris-Est; Yacine Ghamri-Doudane, University of La Rochelle

Wednesday, 9 September 2015 11:00-12:30 Lewis 7B: Energy Efficiency 1 Dynamic Min-Cut Clustering for Energy Savings in Ultra-

Dense Networks Yunfan Ye, Hongtao Zhang, Beijing University of Posts and Telecommunications

2 Energy Efficient Sleep Mode Activation Scheme for Small Cell Networks Xiujun Zhang, Shidong Zhou, Yang Yan, Chunxiao Xing, Jing Wang, Tsinghua University

3 Flow-Level-Delay Constraint Small Cell Sleeping with Macro Base Station Cooperation for Energy Saving in HetNet Bei Liu, Ming Zhao, Wuyang Zhou, Jinkang Zhu, University of Science and Technology of China; Dong Peng, Research Institute of China Mobile

4 Modeling the Impact of Power State Transitions on the Lifetime of Cellular Networks Luca Chiaraviglio, Marco Listanti, University of Rome Sapienza; Josip Lorincz, University of Split; Edoardo Manzia, Martina Santucci, University of Rome Sapienza

5 QoS-aware Distributed Cell Sleep Algorithm for OFDMA Small Cell Networks Yang Liu, Tian Hui, Gaofeng Nie, Beijing University of Posts and Telecommunications

Wednesday, 9 September 2015 11:00-12:30 Griffin 7C: 5G III 1 A Prioritised Traffic Embedding Mechanism enabling a

Public Safety Virtual Operator Jonathan van de Belt, Hamed Ahmadi, Linda Doyle, Trinity College Dublin; Oriol Sallent, Universitat Politecnica de Catalunya (UPC)

2 In-band Full-Duplex System Throughput Analysis for Wi-Fi Outdoor Network Jimin Bae, Eunhye Park, Korea Advanced Institute of Science and Technology; Kapseok Chang, Hyungsik Ju, Electronics and Telecommunications Research Institute; Youngnam Han, Korea Advanced Institute of Science and Technology

3 Proportional Fairness Scheduling with Power Control for Virtual Full-duplex Scheme Weiwei Wang, Fujitsu R&D center Co., Ltd.; Xin Wang, Fujitsu R&D Center Co., Ltd


4 System-Level Performance of Different Array Types for an Indoor mmWave System Timothy A. Thomas, Frederick W. Vook, Eugene Visotsky, Nokia Networks; Shu Sun, New York University

Wednesday, 9 September 2015 11:00-12:30 Marina Room 1 7D: Positioning and Localization I 1 Performance Study on the ECID Positioning Enhancement

in LTE-A Het-net with RRH Bin Su, Beijing University of Posts and Telecommunications; Jie Cui, Anjian Li, Beijing Institute, Huawei, Technologies Co., Ltd.; Yongyu Chang, Beijing University of Posts and Telecommunications

2 VANETs Positioning in Urban Environments : A Novel Cooperative Approach Anas, Queen's University; Aboelmagd Noureldine, RMC, Canada; Hossam Hassanein, Queens University, Canada

3 Vehicular Ranging using Periodic Broadcasts Urs Niesen, Venkatesan Nallampatti Ekambaram, Jubin Jose, Xinzhou Wu, Qualcomm

Wednesday, 9 September 2015 11:00-12:30 Marina Room 2 7E: Performance Analysis 1 Analysis of Error Probability with Maximum Likelihood

Detection over Discrete-Time Memoryless Noncoherent Rayleigh Fading Channels Ramesh Annavajjala, The Charles Stark Draper Laboratory; Chandra Murthy, Indian Institute of Science

2 Exact performance evaluation of multiple access noncoherent UWB systems over correlated Nakagami-m fading channels Yi-Fang Hou, Tsan-Ming Wu, Chung Yuan Christian University

3 Performance Evaluation of GFDMA Systems using an Analytical Tool Maryam Sabbaghian, Arash Ebadi-Shahrivar, University of Tehran; Hamid Saeedi, Tarbiat Modares University

4 Outage Probability Analysis of PLC with Channel Gain under Nakagami-m Additive Noise Aashish Mathur, Manav R. Bhatnagar, Bijaya K. Panigrahi, Indian Institute of Technology Delhi

5 Energy Efficiency-Spectral Efficiency Tradeoff in Interference-Limited Wireless Networks with Shadowing Ahmad Mahbubul Alam, Philippe Mary, INSA, IETR UMR 6164; Jean-Yves Baudais, CNRS, IETR UMR 6164; Xavier Lagrange, Telecom Bretagne, IRISA D2

Wednesday, 9 September 2015 11:00-12:30 Marina Room 3 7F: Cellular Networks 1 Distributed User Selection in Network MIMO Systems with

Limited Feedback Khalil Elkhalil, King Abdullah University of Science and Technology; Mohammed E. Eltayeb, The University of Texas at Austin; Hayssam Dahrouj, Effat University; Tareq Al-Naffouri, King Abdullah University of Science and Technology (KAUST)

2 Energy-Efficient Resource Allocation in Multi-cell OFDMA Systems with Imperfect CSI Xiaoming Wang, Pengcheng Zhu, Southeast University; Fuchun Zheng, The University of Reading; Chao Meng, Xiaohu You, Southeast University

3 On Detection Issues in the SC-based Uplink of a MU-MIMO System with a Large Number of BS Antennas Paulo Torres, IPCB; António Gusmão, IST, Tech. Univ. of Lisbon; Luis, Charrua

4 Performance Evaluation of Distributed Scheduling for Downlink Coherent Joint Transmission Huan Sun, R&I, Alcatel-Lucent Shanghai Bell

5 SCMA for Open-Loop Joint Transmission CoMP Usa Vilaipornsawai, Hosein Nikopour, Huawei Technologies Canada Co., Ltd.; Alireza Bayesteh, Huawei Technologies Canada Co. Ltd.; Jianglei Ma, Huawei Technologies Canada Co., Ltd.

Wednesday, 9 September 2015 11:00-12:30 Marina Room 4 7G: Massive MIMO II 1 A Low-Complexity Pilot Reuse Scheme to Increase the

Throughput of Massive MIMO Qiang He, Xiujun Zhang, Limin Xiao, Xinxin Liu, Shidong Zhou, Tsinghua University

2 Area Spectral Efficiency and Energy Efficiency Analysis in downlink Massive MIMO systems Yuanxue Xin, Dongming Wang, Jiamin Li, Southeast University; H. Zhu, Jiangzhou Wang, University of Kent; Xiaohu You, Southeast University

3 Compressive Channel Estimation in Space Domain for Massive MIMO Systems Xu Chao, Zhang Jianhua, Beijing University of Posts and Telecommunications

4 Distributed User Selection in Multi-cell Massive MIMO Systems with Pilot Contamination Meng Wang, University of Melbourne; Linda M. Davis, University of South Australia

5 Effects of the Training Duration in Massive MIMO FDD System over Spatially Correlated Channel Yi Wang, Wenting Song, Yongming Huang, Chunguo Li, Southeast University; Tian Ban, Nanjing University of Science and Technology; Luxi Yang, Southeast University

Wednesday, 9 September 2015 11:00-12:00 Harbor Ballroom 1 7H: Cloud Computing I 1 Cloud PaaS Brokering in Action: The Cloud4SOA

Management Infrastructure Antonio Corradi, Luca Foschini, Alessandro Pernafini, University of Bologna; Filippo Bosi, Vincenzo Laudizio, Maria Seralessandri, Imola Informatica

2 Finding a Public Bus to Rent out Services in Vehicular Clouds Bouziane Brik, Nasreddine Lagraa, University of Laghouat, Algeria; Abderrahmane Lakas, UAE University; Yacine Ghamri-Doudane, University of La Rochelle

3 Joint Hybrid Backhaul and Access Links Design in Cloud-Radio Access Networks Oussama Dhifallah, King Abdullah University of Science and Technology; Hayssam Dahrouj, Effat University; Tareq Al-Naffouri, King Abdullah University of Science and Technology (KAUST); Mohamed-Slim Alouini, KAUST

4 Low-Complexity Segment Training Channel Estimation in Cloud Radio Access Networks Zhendong Mao, Mugen Peng, Beijing University of Posts & Telecommunications; Honggang Wang, UMass Dartmouth; Jinhe Zhou, Beijing Information Science and Technology University; Xinqian Xie, Beijing University of Posts & Telecommunications

Wednesday, 9 September 2015 11:00-12:30 Harbor Ballroom 2 7I: Localization in Ad Hoc Sensor Networks II 1 Measurement Error Impact on Node Localization of Large

Scale Underwater Sensor Networks Yunfeng Han, Harbin Engineering University; Yahong Rosa Zheng, Missouri University of Science and Technology; Dajun Sun, Harbin Engineering University

2 On Critical Density for Coverage and Connectivity in Directional Sensor Network Using Continuum Percolation Jinlan Li, Beijing University of Posts and Telecommunications; Lin Kang, Taiyuan University of Science and Technology; Yinghai Zhang,


Xiuhua Li, Chaowei Wang, Wang Weidong, Beijing University of Posts and Telecommunications

3 WiFi AP-RSS Monitoring using Sensor Nodes toward Anchor-Free Sensor Localization Shigemi Ishida, Kousaku Izumi, Kyushu University; Shigeaki Tagashira, Kansai University; Akira Fukuda, Kyushu University

4 Effects of Correlated Shadowing Modeling on Performance Evaluation of Wireless Sensor Networks Shani Lu, John May, University of Bristol; Russell Haines, Toshiba Research Europe Ltd.

Wednesday, 9 September 2015 11:00-12:00 Harbor Ballroom 3 7J: Light-based Communications and Positioning I 1 Accuracy of AOA-Based and RSS-Based 3D Localization for

Visible Light Communications Alphan Sahin, Yusuf Said Eroglu, Ismail Guvenc, Nezih Pala, Florida International University; Murat Yuksel, University of Nevada, Reno

2 A Novel Vertical Handover Algorithm in a Hybrid Visible Light Communication and LTE System Shufei Liang, Tian Hui, Bo Fan, Ronglin Bai, Beijing University of Posts and Telecommunications

3 Coordinated Transmission Based Interference Mitigation in VLC Network Ronglin Bai, Tian Hui, Bo Fan, Shufei Liang, Beijing University of Posts and Telecommunications

4 Indoor Position Tracking using Visible Light Muhammad Yasir, Siu-Wai Ho, Badri Vellambi, University of South Australia

Wednesday, 9 September 2015 14:00-15:30 Carlton 8A: Mobility Management in Ad Hoc Networks 1 Enhanced SRTST - Optimized Intra-car Real-Time Wireless

Sensor Communication Stefan Reis, Dirk Pesch, Cork Institute of Technology; Michael Kuhn, University of Applied Sciences Darmstadt; Bernd-Ludwig Wenning, Cork Institute of Technology

2 Evaluating the Performance of Heterogeneous Vehicular Networks Cristiano Maciel Silva, Universidade Federal de São João Del-Rei; Wagner Meira Jr, DCC-UFMG

3 Modeling Inter-vehicle Communication in Multi-lane Highways: A Stochastic Geometry Approach Muhammad Junaid Farooq, Hesham ElSawy, Mohamed-Slim Alouini, KAUST

4 Performance Evaluation of IEEE 802.15.4 OQPSK and CSS PHY in the Presence of Interference Felix Wunsch, Holger Jäkel, Friedrich K. Jondral, Karlsruhe Institute of Technology

5 QoS Improvement for Video Streaming over MANET Using Network-Coding Olfa Ben Rhaiem, National school of engineering (ENIS); Lamia Chaari, Sfax University; Wessam Ajib, University of Quebec at Montreal

Wednesday, 9 September 2015 14:00-15:30 Lewis 8B: MIMO and Interference Management 1 EVD-based Detection for Multi-cell Massive MIMO

Network Mangqing Guo, Jinchun Gao, Gang Xie, Yuanan Liu, Beijing University of Posts and Telecommunications

2 Stochastic Geometry Modeling and Performance Evaluation of Downlink MIMO Cellular Networks Peng Guan, Marco Di Renzo, CNRS - SUPELEC - University Paris-Sud XI; Trung Q. Duong, Queen's University Belfast

3 Interference Analysis and Performance Evaluation of 5G Flexible-TDD based Dense Small-Cell System Toni Levanen, Juha Venäläinen, Mikko Valkama, Tampere University of Technology

4 Increasing Reliability by Means of Root Cause Aware HARQ and Interference Coordination Beatriz Soret, Nokia Networks; Guillermo Pocovi, Aalborg University; Klaus I. Pedersen, Nokia Networks; P. E. Mogensen, Nokia Solutions & Networks

Wednesday, 9 September 2015 14:00-15:30 Griffin 8C: LTE and WiFi Coordination 1 A Distributed Interference Management for Crowded

WLANs: Opportunistic Interference Alignment Hu Jin, Hanyang University; Bang Chul Jung, Gyeongsang National Univ.; Jinhyung Oh, Myung Sun Song, Electronics and Telecommunications Research Institute

2 A Field Trial of Unlicensed LTE (U-LTE) in 5.8 GHz Band Yang Lan, Lihui Wang, Huiling Jiang, DOCOMO Beijing Communications Laboratories Co., Ltd

3 An efficient M2M-oriented network-integrated multiple-period polling service in LTE network Song Qipeng, Telecom Bretagne; Xavier Lagrange, Telecom Bretagne, IRISA D2; Loutfi Nuaymi, Telecom Bretagne

4 Energy-Efficient Resource Allocation for Device-to-Device Communications Overlaying LTE Networks Kai Yang, University Paris Sud - 11; Steven Martin, LRI, University of Paris-Sud 11; Lila Boukhatem, University Paris Sud 11; Jinsong Wu, Universidad de Chile; Xiangyuan Bu, Beijing Institute of Technology

Wednesday, 9 September 2015 14:00-15:30 Marina Room 1 8D: Positioning and Localization II 1 Locating the Node by Exploiting Shadowing Fading

Zhenghuan Wang, Fei Gao, Heng Liu, Shengxin Xu, Yaping Ni, Beijing Institute of Technology

2 A Weighted Least Squares Algorithm for Passive Localization in Multipath Scenarios Noha El Gemayel, Holger Jäkel, Friedrich K. Jondral, Karlsruhe Institute of Technology

3 A Novel Fuzzy Pedestrian Dead Reckoning System for Indoor Positioning Using Smartphone Chao Li, Beijing University of Posts and Telecommunications; Jinjun Zheng, Beijing Institute of Spacecraft System Engineering; Zhuqing Jiang, Xinmeng Liu, Yuying Yang, Beihang Zhang, Beijing University of Posts and Telecommunications

4 A Cluster-based Cooperative Localization Algorithm Po-Hsuan Tseng, National Taipei University of Technology

Wednesday, 9 September 2015 14:00-15:30 Marina Room 2 8E: Physical Layer Security II 1 Multi Antenna Transmission Technique with Constellation

Shaping for Secrecy at Physical Layer Paulo Carvalho, Rui Dinis, Universidade Nova de Lisboa

2 Physical Layer Security of MIMO Wiretap systems with Antenna Selection in Rayleigh Fading with Imperfect Feedback Mohamed Lassaad Ammari, Carthage University; Paul Fortier, Laval University


3 Secrecy Analysis for Massive MIMO Systems with Internal Eavesdroppers Hao Wei, Dongming Wang, Southeast University; Xiaoyun Hou, Yan Zhu, Nanjing University of Posts and Telecommunications; Jun Zhu, University of British Columbia

4 Secure Robust Resource Allocation in the Presence of Active Eavesdroppers using Full-Duplex Receivers Mohammad Reza Abedi, Nader Mokari, Hamid Saeedi, Tarbiat Modares University; Halim Yanikomeroglu, Carleton University

5 How vulnerable is Vehicular Communication to Physical Layer Jamming Attacks? Yuksel Ozan Basciftci, Fangzhou Chen, Joshua Weston, The Ohio State University; Ron Burton, Transportation Research Center Inc; C. Emre Koksal, The Ohio State University

Wednesday, 9 September 2015 14:00-15:30 Marina Room 3 8F: Relaying II 1 Energy-Efficient Relay Deployment in Cellular Systems

Using Fractional Frequency Reuse Scheme Hyun Seob Oh, Wha Sook Jeon, Seoul National University; Dong Geun Jeong, Hankuk University of Foreign Studies

2 Lossy Forwarding Technique for Parallel Multihop-Multirelay Systems Ade Irawan, Khoirul Anwar, Tad Matsumoto, Japan Advanced Institute of Science and Technology (JAIST)

3 Multihop Relaying in Millimeter Wave Networks: A Proportionally Fair Cooperative Network Formation Game Nof Abuzainab, Inria; Corinne Touati, INRIA

4 Relay Selection with Limited and Noisy Feedback Mohammed E. Eltayeb, The University of Texas at Austin; Khalil Elkhalil, King Abdullah University of Science and Technology; Abdullahi A. Masud, Jubail Industrial College; Tareq Al-Naffouri, King Abdullah University of Science and Technology (KAUST)

5 Spectral and Energy Efficiency for Multi-Pair Massive MIMO Two-Way Relay Networks with Imperfect CSI Hongyan Wang, Jie Ding, Jing Yang, Yangzhou University; Xiqi Gao, Southeast University; Zhiguo Ding, Lancaster University

Wednesday, 9 September 2015 14:00-15:30 Marina Room 4 8G: Connected Vehicles I 1 A Novel MBSFN Scheme For Vehicle-to-Vehicle Safety

Communication based on LTE Network Mengfei Xie, Yong Shang, Zhenyu Yang, Yi Jing, Peking University; Haijun Zhou, Datang Wireless Mobile Innovation Center

2 Efficient Inter-vehicle Internet Content Distribution based on Named Data Gang Deng, Li Shi, Rere Li, Xiaoming Xie, Beijing University of Posts and Telecommunications

3 Performance Analysis of Mobile AP using Grouping in Express Highway Environment Gangminh Lee, Dong-Ho Cho, KAIST

4 Comparison of Relevance Estimation Mechanisms for Cooperative Awareness Messages in VANETs Jakob Breu, Mercedes-Benz Research and Development; Michael Menth, University of Tübingen

Wednesday, 9 September 2015 14:30-15:30 Harbor Ballroom 1 8H: Cloud Computing II 1 Small Cell Clustering for Efficient Distributed Fog

Computing: A Multi-user Case Jessica Oueis, Emilio Calvanese Strinati, CEA-LETI MINATEC; Stefania Sardellitti, Sergio Barbarossa, Sapienza University of Rome

2 Three-Layers Secure Access Control for Cloud-based Smart Grids Yuanpeng Xie, University of Elec. Science and Tech. of China; Jinsong Wu, Universidad de Chile; Hong Wen, Yixin Jiang, University of Elec. Science and Tech. of China

3 Towards Mobility-as-a-Service to Promote Smart Transportation Xiping Hu, Nam Giang, Johnny Shen, Victor C. M. Leung, The University of British Columbia; Xitong Li, HEC Paris

Wednesday, 9 September 2015 14:30-15:30 Harbor Ballroom 3 8J: Light-based Communications and Positioning II 1 Indoor Visible Light Positioning with Angle Diversity

Transmitter Liang Yin, Xiping Wu, Harald Haas, University of Edinburgh

2 Low-Power Radio-Optical Beacons for In-View Recognition Ashwin Ashok, Chenren Xu, Carnegie Mellon University; Tam Vu, University of Colorado Denver; Marco Gruteser, Richard Howard, Yanyong Zhang, Narayan Mandayam, Wenjia Yuan, Kristin Dana, WINLAB, Rutgers University

3 Soft Handover in OFDMA based Visible Light Communication Networks Ergin Dinc, Ozgur Ergul, Ozgur Akan, Koc University

Wednesday, 9 September 2015 15:30-17:00 Carlton 9A: Routing in Ad Hoc Networks 1 On the Impact of Fading and Interference on Contention-

based Geographic Routing in VANETs Thomas Paulin, FTW - Telecommunications Research Center Vienna and Aalborg University; Stefan Ruehrup, FTW - Telecommunications Research Center Vienna

2 Enhanced Hybrid Traffic-Aware Routing Protocol for Vehicular Ad Hoc Networks Chun-Chih Lo, Yau-Hwang Kuo, National Cheng Kung University

3 Performance Comparison of AODV and DSR in MANET Test-bed Based on Internet of Things Hou Songfan, Wu Muqing, Liao Wenxing, Wang Dongyang, Beijing University of Posts and Telecommunications

4 Routing in Disruption Tolerant Networks with Limited Storage Jiaojie Yan, Hongyan Li, Jiandong LI, Ronghui Hou, Jianpeng Ma, Xidian University

5 Source-destination Routing for Optimised Link State Routing Protocol Jiazi YI, Thomas Clausen, Ecole Polytechnique

Wednesday, 9 September 2015 15:30-17:00 Lewis 9B: Coexistence and Signaling 1 Adaptive Unlicensed Band Access for Downlink Cellular

Networks Hyunsoo Kim, Jonghyun Bang, Seokjung Kim, Yonsei University; Hyoungju Ji, Samsung Electronics Co.; Younsun Kim, Samsung; Taewon Hwang, Sooyong Choi, Chungyong Lee, Daesik Hong, Yonsei University

2 A Robustness Analysis of Learning-based Coexistence Mechanisms for LTE-U Operation in Non-Stationary Conditions Jordi Perez-Romero, Oriol Sallent, Ramon Ferrus, Ramon Agusti, Universitat Politecnica de Catalunya (UPC)

3 Channel Selection for License Assisted Access in LTE Based on UE Measurements Christian Ibars, Abhijeet Bhorkar, Apostolos Papathanassiou, Pingping Zong, Intel Corporation


4 The Cost of QoS in LTE/EPC Mobile Networks Evaluation of Processing Load William Diego, Isabelle Hamchaoui, Orange Labs; Xavier Lagrange, Telecom Bretagne, IRISA D2

5 RLC SDU loss and arrival delay in Multi-SIM UEs Jakob L. Buthler, Troels B. Sørensen, Aalborg University

Wednesday, 9 September 2015 15:30-17:00 Griffin 9C: Energy-aware Networking 1 Coverage Characterization in Wireless Powered

Communication Networks with Energy Harvesting Yuanyuan Yao, Changchuan Yin, Beijing University of Posts and Telecommunications

2 Energy or Traffic: Which One to Transfer Hyun-Suk Lee, Duck-Hyun Bae, Jang-Won Lee, Yonsei University

3 Estimation of a 10 Gb/s 5G Receiver's Performance and Power Evolution Towards 2030 Mads Lauridsen, Preben E. Mogensen, Troels B. Sørensen, Aalborg University

4 Multi-size cell expansion for energy-efficient cell breathing in green wireless networks Luis Suarez, Loutfi Nuaymi, Telecom Bretagne

5 Optimal Power-Splitting Ratio for Wireless Energy Harvesting in Relay Networks Saman Atapattu, Jamie S. Evans, Monash University

Wednesday, 9 September 2015 15:30-17:00 Marina Room 1 9D: Relaying III 1 Evaluating pointing errors on ergodic capacity of DF relay-

assisted FSO communication systems Ruben Boluda-Ruiz, Antonio Garcia-Zambrana, Beatriz Castillo-Vazquez, Carmen Castillo-Vazquez, University of Malaga

2 On Superposition Multilevel Coding for the 3-Node Relay Channel Exploiting Decode and Forward Daniel Kern, Volker Kuehn, University of Rostock

3 On the Overhead of Telescopic Codes in Network Coded Cooperation Néstor J. Hernández Marcano, Janus Heide, Steinwurf; Daniel Lucani, Frank H.P. Fitzek, Aalborg University

4 Performance of Fiber-optic Inband Relaying against Self-interference in both Uplink and Downlink Sho Nakazawa, Kohei Iwai, Mitsutoshi Nakamura, Kogakuin University; Takahiro Kubo, Takahiro Asai, Yukihiko Okumura, NTT DOCOMO, INC.; Hiroyuki Otsuka, Kogakuin University

Wednesday, 9 September 2015 15:30-17:00 Marina Room 2 9E: Multiuser MIMO 1 A Study of Close Eigenvalues and Communication

Performance in Multiple-Input Multiple-Output Eigenbeam Space-Division Multiplexing Yusuke Dohi, Tetsushi Ikegami, Meiji University

2 Downlink Performance Analysis of Multicell Multiuser 3D MIMO System Wenran Yin, Li LiHua, Xingwang Li, Zhi Wang, Xie Ling, Beijing University of Posts and Telecommunications

3 Interference Alignment in Heterogeneous Networks using Pico Cell Clustering Ryuma Seno, Tomoaki Ohtsuki, Keio University; Wenjie Jiang, Yasushi Takatori, NTT Corporation

4 Robust Precoding Methods for Multiuser MISO Wireless Energy Harvesting Systems Zhengyu Zhu, Zheng Zhou University; Kyoung-Jae Lee, Hanbat National University; Zhongyong Wang, University of Zheng Zhou; Zheng Chu, Newcastle University; Inkyu Lee, Korea University

5 User Collaboration for Interference Cancellation on Multi-User MIMO Communication Systems Yuji Hayashi, Ilmiawan Shubhi, Hidekazu Murata, Kyoto University

Wednesday, 9 September 2015 15:30-17:00 Marina Room 3 9F: MIMO Transceivers 1 Beam Selection Methods for Massive MIMO Systems with

Hybrid Radio Frequency and Baseband Precoding Lei Song, Xin Wang, Fujitsu R&D Center Co., Ltd

2 Capacity Enhancement with Joint Precoding for Multiple-Input Multiple-Output Downlink System Mohammad Abu Hanif, Sang Seob Song, Lee Moon Ho, Chonbuk National University

3 Fast Codebook-Based Beamforming Training for mmWave MIMO Systems with Subarray Structures Liang Zhou, Yoji Ohashi, Fujitsu Laboratories Ltd.

4 Open-Loop Correlation Reduction Precoding in Overloaded MIMO-OFDM Systems Hikari Matsuoka, Yoshihito Doi, Tatsuro Yabe, Yukitoshi Sanada, Keio University

5 Robust Transceiver Design for MISO Interference Channel with Energy Harvesting Ming-Min Zhao, Yunlong Cai, Zhejiang University; Qingjiang Shi, Zhejiang Sci-Tech University; Benoit Champagne, McGill University; Minjian Zhao, Zhejiang University

Wednesday, 9 September 2015 15:30-17:00 Marina Room 4 9G: Connected Vehicles II 1 A Vehicular Positioning Enhancement with Connected

Vehicle Assistance Xuting Duan, Yunpeng Wang, Daxin Tian, Beihang University; Liang Sun, NEC Labs China; David Michelson, Victor C. M. Leung, The University of British Columbia

2 Methods for Extracting V2V Propagation Models from Imperfect RSSI Field Data Silvija Kokalj-Filipovic, Larry Greenstein, Bin Cheng, Marco Gruteser, WINLAB, Rutgers University

3 Applying LTE-D2D to support V2V Communication using local Geographic Knowledge Yi Ren, Chao Wang, Dong Liu, Fuqiang Liu, University of Tongji

Wednesday, 9 September 2015 15:30-17:00 Harbor Ballroom 1 9H: Channel Modeling, Estimation and Measurements 1 Clustering in 3D MIMO Channel: Measurement-based

Results and Improvements Pan Tang, Zhang Jianhua, Beijing University of Posts and Telecommunications

2 Location-based Channel Estimation for Massive Full-Dimensional MIMO Systems Wendong Liu, Chen Qian, Zhaocheng Wang, Tsinghua University

3 Logarithmic Expectation of the Sum of Exponential Random Variables for Wireless Communication Performance Evaluation Anming Dong, Haixia Zhang, Shandong University; Dalei Wu, University of Tennessee; Dongfeng Yuan, Shandong University

4 Real-life Indoor MIMO Performance with Ultra-compact LTE Nodes Arne Simonsson, Maurice Bergeron, Jessica Östergaard, Chris Nizman, Ericsson


Workshops

Monday, 7 September 2015 14:30-17:30 Harbor Ballroom 2 14W: W4: First International Workshop on Mobile and Context Aware Services (MOCS2015) 1 Towards a Real-Time Public Transport Data Framework

using Crowd-sourced Passenger Contributed Data Sian Lun Lau, Sunway University; S.M. Sabri Ismail, Prasarana Negara Berhad

2 A QoE-driven Cross-layer Resource Allocation Scheme for High Traffic Services over Open Wireless Network Downlink Liya Shan,; Qing Liao, Qingyue Hu, Shantao Jiang, Jingling Zhao, Beijing University of Post and Telecommunications

3 A Tool Chain for Context Detection: Automating the Investigation of a Multitude of Parameter Sets Andreas Jahn, University of Kassel; Sian Lun Lau, Sunway University; Klaus David, Bernhard Sick, University of Kassel

4 MOCS2015: A distributed scheduling algorithm for heterogeneous cache-enabled small cell networks using ADMM Zhilong Zhang, Danpu Liu, Beijing University of Posts and Telecommunications

5 Recognition of Professional Activities With Displaceable Sensors Dina Bousdar, German Aerospace Center (DLR)

6 Automated Testing of Context-Aware Applications Ralf Tönjes, Eike Steffen Reetz, University of Applied Science Osnabrueck

7 Performance Challenges of Decentralised Services Greig Paul, Pierre-Louis Dubouilh, James Irvine, University of Strathclyde

8 Privacy Implications of Smartphone-Based Connected Vehicle Communications Greig Paul, Dershana Thomas, James Irvine, University of Strathclyde

Tuesday, 8 September 2015 14:30-17:30 Harbor Ballroom 2 12W: W2: International Workshop on Wireless Power (WoW 2015) 1 A Framework for Evaluating Multi-Kilowatt Highly-

Resonant Wireless Power Transfer Systems Andre Kurs, Guillaume Lestoquoy, WiTricity Corporation

2 Wireless Power for Vehicle Lightweighting, Reducing Costs, and Improving Manufacturing Efficiencies Kris McNeil, Andrew Bartlett, Paul Arsenault, Solace Power Inc.

3 Design of Hybrid Energy Storage Systems for Wirelessly Charged Electric Vehicles Ahmed Azad, Tarak Saha, Regan Zane, Zeljko Pantic, Utah State University

4 In-Vehicles Wireless Charging System for Portable Devices Ron-Chi Kuo, University of Florida; Patrick Riehl, Anand Satyamoorthy, MediaTek; Jenshan Lin, University of Florida

5 Automotive Compatible Single Amplifier Multi-mode Wireless Power for Mobile Devices Michael de Rooij, Andrea Mirenda, Efficient Power Conversion

Wednesday, 9 September 2015 14:30-17:00 Harbor Ballroom 2 16W: W6: WiFiUS - Recent Advances in Reconfigurable Antennas and Small-Cell Systems 1 Leveraging an Agile RF Transceiver for Rapid Prototyping

of Small-Cell Systems Danh Nguyen, Drexel University; Mikko Rauhanummi, Harri Saarnisaari, University of Oulu; Nagarajan Kandasamy, Kapil R. Dandekar, Drexel University

2 Co-Channel Interference In Future Femtocell Networks Travis F. Collins, Alexander M. Wyglinski, Worcester Polytechnic Institute

3 Flexible Digital Predistortion for Future Spectrally-Agile Waveforms and 5G Radio Systems Mahmoud Abdelaziz, Lauri Anttila, Sener Dikmese, Markku Renfors, Tampere University of Technology; Alexander M. Wyglinski, Worcester Polytechnic Institute; Mikko Valkama, Tampere University of Technology

4 SkyNet: SDR-Based Physical Simulation Testbed Travis F. Collins, Alexander M. Wyglinski, Worcester Polytechnic Institute

5 Dynamic and Flexible Spectrum Use with Frequency Localized Waveforms under Transmitter Nonidealities Sener Dikmese, Mahmoud Abdelaziz, Lauri Anttila, Markku Renfors, Mikko Valkama, Tampere University of Technology

6 High-Efficiency Device Localization in 5G Ultra-Dense Networks: Prospects and Enabling Technologies Aki Hakkarainen, Janis Werner, Tampere University of Technology; Mário Costa, Kari Leppänen, Huawei Technologies Finland; Mikko Valkama, Tampere University of Technology

Tuesday, 8 September 2015 14:30 -14:50 Harbor Ballroom 3 Rapid Prototyping of Real-Time Wireless Systems with National Instruments LabVIEW

In this workshop, National Instruments will discuss how the NI LabVIEW Communications System Design Suite (LabVIEW Communications) and the NI USRP RIO FPGA-based software defined radio is used to design, simulate, and prototype an LTE-based real-time OFDM link on a high performance FPGA, and transmit data over the air using the NI USRP-RIO. The presentation will cover the most important aspects of the “idea-to-prototype” flow in a single tool, including floating-point simulation, floating-point to fixed-point conversion, HW/SW partitioning, performance-complexity tradeoffs, and finally, verification and testing on an FPGA-based software-defined radio.

· 2 the 82nd ieee vehicular technology conference vtc2015-fall boston programme welcome from the...

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