dissemination activities report ii -...
TRANSCRIPT
Deliverable D7.3
Dissemination activities Report II
Editor E. Palmisano (PRT)
Contributors D. Skoutos (ATH), S. Pfenningschmidt (FF), P. Mehta (FUB), N. Atanasova (GS4), N. Bakalos (ICCS), B. Bhardwa (ICPR), A. Litke (INF), S. Bartlett (LWF), A. Engström (MLM), P. Boscolo (PRT), S. Micheli (ROM), T. Paulin (SYN), S. Costicoglou (SPH).
Version 1.0
Date 30 April 2017
Distribution PUBLIC (PU)
Ref. Ares(2017)2428855 - 12/05/2017
City.Risks Deliverable D7.3
© City.Risks Consortium 2
Executive Summary
The present document represents an update of the dissemination strategy carried out by the City.Risks consortium and is focussed on two main activities:
a) report of the dissemination activities in the second year; b) preliminary analysis of exploitation concerns as a basis for a future
commercialization strategy.
The document is structured in five sections. Section 1 gives a general update on the main actions carried out by the Consortium in the second year, in terms of dissemination tools and opportunities.
Section 2 reports the dissemination activities undertaken by each partner in the second year and the planned ones for the last year, where already identified. It includes also partners' activities in the first year as already reported in [1] to give the overall picture of the dissemination efforts carried out so far by each partner.
Section 3 details the actions undertaken to support or start possible co-operation with some identified international cluster networks, selected on the basis of their profile among those already reported in [1].
Section 4 reports international conferences that have been identified during the second year by the Consortium as most promising channels for dissemination activities in the final stage of the project.
Section 5 reports an introductory review of the identified intellectual property rights (IPRs) affecting both the components used for developing the project technical solutions and the final products that will be the target of exploitation actions at the end of the project. In addition, it includes a preliminary analysis of exploitation issues concerning the already mature project components identified by the Consortium. The subject will be defined in detail by the end of third year and will be reported in D7.6 – Business Plan and D7.8 – Plan for the use of the foreground at M36, as agreed in the DoW. Nonetheless, it was considered crucial by the Consortium to collect and define in advance preliminary elements that will contribute in identifying the best exploitation solutions. According to the DoW, this activity is included in Task 7.3 and reported in the document describing the dissemination actions carried out by the Consortium and this is the reason why it was included in this deliverable.
Section 6 reports the main conclusions by providing the main dissemination figures and, finally, the Annex details the dissemination activities undertaken by each partner.
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Table of Contents 1. COMMUNICATION STRATEGY – AN UPDATE .............................................. 6
1.1. The CITY.RISKS website ....................................................................................... 6
1.2. Press releases ...................................................................................................... 9
1.3. Newsletters ......................................................................................................... 9
1.4. The Project dissemination deliverables .............................................................. 9
1.5. Papers and articles ............................................................................................ 11
1.6. Project video ..................................................................................................... 11
1.7. Mailing lists and collaborative platforms.......................................................... 12
2. PARTNERS' DISSEMINATION ACTIVITIES .................................................. 13
2.1. Space Hellas S.A. ............................................................................................... 13
2.2. Fraunhofer Institute for Open Communication Systems FOKUS...................... 14
2.3. Athena Research & Innovation Centre in Information, Communication and Knowledge Technologies ......................................................................................... 15
2.4. SYNYO GmbH .................................................................................................... 16
2.5. Infili Technologies PC ........................................................................................ 16
2.6. Institute of Communications and Computer Systems – ICCS ........................... 17
2.7. Freie Universität Berlin ..................................................................................... 18
2.8. Institute for Criminal Policy Research, University of London ........................... 18
2.9. Malmö University .............................................................................................. 19
2.10. Roma Capitale ................................................................................................. 19
2.11. The London Borough of Waltham Forest ....................................................... 20
2.12. VIP Security Solutions ..................................................................................... 21
2.13. Comune di Prato ............................................................................................. 22
3. COLLABORATION WITH NETWORK ORGANISATIONS ............................... 25
3.1. Major Cities of Europe – IT Users group (MCE) ................................................ 25
3.2. EUROCITIES ....................................................................................................... 26
3.3. The European Urban Knowledge Network (EUKN)........................................... 26
3.4. European Forum for Urban Security (EFUS) ..................................................... 27
4. PLANNED DISSEMINATION CONFERENCES ............................................... 29
4.1. MCE International Conference in 2017 ............................................................ 29
4.2. Next Generation Community Policing International Conference ..................... 29
4.3. "Security, Democracy & Cities: Coproducing Urban Security Policies" Conference ............................................................................................................... 30
4.4. Smart City EXPO World Congress ..................................................................... 31
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5. CONCERNS ON IPRS AND USE OF THE FOREGROUND ................................ 32
5.1. Analysis of IPR framework ................................................................................ 32
5.2. Identification of exploitable results produced by Space Hellas ....................... 34
5.2.1. BLE sensor prototype ........................................................................................... 35
5.2.2. BLE/WiFi Gateway ................................................................................................ 36
5.3. Identification of exploitable results produced by Fraunhofer FOKUS .............. 37
5.3.1. App and App Backend ........................................................................................... 37
5.3.2. Augmented Reality - SDK ...................................................................................... 38
5.3.3. Incident Mangement Engine ................................................................................ 39
5.3.4. Report Translation Modules ................................................................................. 40
5.3.5. Incident Filter and Classifier Modules .................................................................. 41
5.3.6. Incident Monitor Tool ........................................................................................... 42
6. CONCLUSIONS ......................................................................................... 43
ANNEX : DISSEMINATION ACTIVITIES IN THE SECOND YEAR ........................................ 45
BIBLIOGRAPHY ............................................................................................... 72
LIST OF ACRONYMS ......................................................................................... 73
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Table of Figures Figure 1 – The "Related Project" page on the web site. ................................................ 7
Figure 2 – Number of contacts on the web site. ........................................................... 8
Figure 3 – Visitors' distribution in the web site contacts. ............................................. 8
Figure 4 – World distribution of web site contacts. ...................................................... 8
Figure 5 – The project factsheet. ................................................................................ 10
Figure 6 – The annual report brochure. ...................................................................... 11
Figure 7 – Video on recovery of stolen bikes. ............................................................. 12
Figure 8 – The MCE conference audience (Florence, 2016). ....................................... 25
Figure 9 – News on City.Risks published in MCE newsletter. ...................................... 26
Figure 10 – Distribution of dissemination activities in the second year. .................... 44
List of Tables Table 1 – Main figures of web site analytics in the second year. .................................. 7
Table 2 – IPR related to used components. ................................................................. 33
Table 3 – IPR related to the project products. ............................................................. 33
Table 4 – Preliminary exploitation isssues for the BLE sensor. ................................... 35
Table 5 – Preliminary exploitation isssues for the BLE/WIFI Gateway. ....................... 36
Table 6 – Preliminary exploitation isssues for the App and App Backend. ................. 38
Table 7 – Preliminary exploitation isssues for the Augmented Reality - SDK. ............ 39
Table 8 – Preliminary exploitation isssues for the Incident Management Engine. ..... 39
Table 9 – Preliminary exploitation isssues for the Report Translation Modules. ....... 40
Table 10 – Preliminary exploitation isssues for the Incident Filter and Classifier Modules. ...................................................................................................................... 41
Table 11 – Preliminary exploitation isssues for the Incident Monitor Tool. ............... 42
Table 12 – Summary of dissemination material and communication channels. ........ 43
Table 13 – Summary of dissemination activities in the second year. ......................... 43
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1. COMMUNICATION STRATEGY – AN UPDATE
In the second year of the project, the dissemination activities were carried out in agreement to the strategy established by the Consortium in D7.1 and included the following activities:
Management and update of the project web site and social channels
Creation of brochures reporting project results
Video making
Publication of project information and results in external web sites and newsletters
Participation in international and national conferences
Publication of scientific papers
Reinforcement of links with international cluster oganisations
Increase of project awareness at local level in the pilot sites
Partners contributed to these tasks, according to their institutional profile and role in the project.
1.1. The CITY.RISKS website
During the second year, SYNYO as the web site manager partner has undertaken the the following activities:
publication of posts on project results
publication of project newsletters
publication of partners' contributions
A new page on “Related Projects” (Figure 1) was also added, reporting information on the projects funded under the same City Risks' call, to strenghten the link among similar actions also in view of the organisation of a joint international conference in Greece in October 2016, as detailed in Section 4.
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Figure 1 – The "Related Project" page on the web site.
A new section has been also designed to collect all the publications made by the Consortium's partners in conferences and journals and will be added in a next version of the web site, as soon as the necessary database is completed.
Table 1 shows the main figures of the web site statistics in the period from April 2016 to March 2017.
Table 1 – Main figures of web site analytics in the second year.
Web site analytics (April 2016-March 2017)
Sessions 2532
Page Views 5070
Recurring visits 30%
In Figure 2 and Figure 3 are reported the number of contacts and the visitors' distribution (new and returning) in the same period, while Figure 4 shows the world distribution of the web contacts, from where we can see not only the involvement of partners' countries but also an interest from many other countries, which can’t only by chance but as a result from partners' dissemination activities (e.g. conferences and publications).
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Figure 2 – Number of contacts on the web site.
Figure 3 – Visitors' distribution in the web site contacts.
Figure 4 – World distribution of web site contacts.
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1.2. Press releases
In the second year some of the partners have carried on the publication of news on the project results in several online dissemination channels, in order to spread the knowledge on the project goals at local and national level.
Details on such activity are included in the Annex.
1.3. Newsletters
Newsletter managed by partners and by others related subjects (e.g. the Major Cities of Europe network and PIN S.c.r.l.) have reported news on the projects outcomes in order to keep the audience updated on the project results.
According to the defined dissemination strategy, during the second year, the Consortium has also published two newsletter issues on the project results:
Newsletter n. 2: Main findings of City.Risks survey in London, Sofia and Rome. City.Risks presents a fine-grained analysis of security threats in large urban environments.
Newsletter n. 3: The theft sensor device for participatory sensing. Designing the City.Risks core platform. Designing the mobile app and the risk management system. Designing the Operation Centre functionalities. Data management & analysis. Designing the City.Risks web portal. Identified use cases for pilot activity.
1.4. The Project dissemination deliverables
In the second year some new deliverables have been produced as dissemination tools.
Factsheet on Project Framework
The brochure gives a picture of the technological framework of the project and some indications on the use cases foreseen in the pilot sites. It is available in English on the project web site and in printed version (Figure 5).
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Figure 5 – The project factsheet.
Annual report brochure
The brochure illustrates the main issues faced by the projects up to the end of the second year and gives the current picture of the technological context supporting the project development and targeting the test activities in the pilot fields (Figure 6).
The brochure is available in English on the project web site.
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Figure 6 – The annual report brochure.
1.5. Papers and articles
A total of six papers have been produced on the project topics by scientific and technical partners , aiming at disseminating the project approach, technical solutions and results in their peer communities. A new section will be available in the third year on the web site to collect all such papers. Details for each partner are available in the Annex.
1.6. Project video
In the second year, Comune di Prato with the support of PIN S.c.r.l. has produced a video to illustrate the anti theft sensor application (Figure 7).
The video is available on the project You Tube channel and will be used in several dissemination occasions, like conferences and events.
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Figure 7 – Video on recovery of stolen bikes.
1.7. Mailing lists and collaborative platforms
The consortium members can access several mailing lists and collaborative platforms in relation to their institutional activities and profile, that can be used to publish news on the project activity and to enlarge the project audience and to distribute information on the project results. In particular, the Major Cities of Europe network has supported the project dissemination by publishing news on the project in its newsletter. Information on the project results were also published in the Joinup platform (https://joinup.ec.europa.eu/), the E-Forum platform (http://www.eu-forum.org/), the Pan European e-Participation Network and several national platforms managed by public institutions (e.g. the National Association of Municipalities in Italy).
More details on this activity are available in the Annex.
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2. PARTNERS' DISSEMINATION ACTIVITIES
This section summarises the dissemination actions carried out by partners. In order to have an overall vision of each partner's efforts, activities reported in the first year have also been included. Moreover, since most of the partners have already identified and planned possible dissemination actions that will be undertaken in the third year, these have been reported as well.
2.1. Space Hellas S.A.
Summary of dissemination activities in the first year Date Name of the Event Location Tool Target audience
18-19/3/2016 Security Project conference
Athens, Greece Presentation & booth
Security Professionals
29-30/3/2016 “Sm@rt Cities - Digit@l Citizens” conference
Athens, Greece Presentation Smart Cities stakeholders
27-30/6/2016 EUCNC 2016, European Conference on Networks and Communications
Athens, Greece Scientific paper (submitted)
R&D community in the fields of IoT/M2M
March 2016 SPACEtalk company printed newsletter
Article: “City.Risks: Increasing the sense of safety of citizens in large cities”
Company partners and customers
March 2016 HORIZON – The EU Research and Innovation Magazine
Article: “How a smartphone could find your stolen bike”
R&D community and wide public
Summary of dissemination activities in the second year
Date Name of the Event Location Tool Target audience
May 30 2016-June 1 2016
Major Cities Conference 2016: City Renaissance in the Digital Age
Florence Conference, EU Project Exhibition
400 Participants Mainly from City Authorities,
June 27-30 2016 EUCNC 2016 Athens Conference Research community
March 7-9 2017 Security & Policing 2017 Home Office Event
FARNBOROUGH UK
Exhibition Home Office, LEAs, City Authorities
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Summary of planned dissemination activities in the third year of the project
Approx. Date
Name of the Event Location Tool Target audience
June 7-9 2017 Smart & Safe City Event
Hauge Conference City Authorities, Industry
June 12 -14 2017
Major Cities Conference 2017: The Digital Future Cities Facing Reality
Zagreb Conference, Conference, Project Exhibition
City Authorities,
Oct 25-27 2017 2017 NGCP Next Generation Community Policing
Crete International Conference – Clustering Event
Research Community, LEAs, City Authorities
Nov 14-16 2017 Smart City Expo World Congress
Barcelona Conference City Authorities, Industry
2.2. Fraunhofer Institute for Open Communication Systems FOKUS
Summary of dissemination activities in the first year Date Name of the Event Location Tool Target audience
29.10.2015 Dialog Innovation Centre Public Safety
Berlin Presentation and Discussion
Security forces
Summary of dissemination activities in the second year Date Name of the Event Location Tool Target audience
14–16.9.2016 Workshop: Disaster Management for Resilience and Public Safety
Berlin, Germany
Workshop organisation
Researchers
22–23.9.2016 GI-Workshop Location-based Services (LBAS 2016)
Jena, Germany
Research paper Presentation
Researchers
27.02.2017 Meeting of the WG Safety of the Network Smart City Berlin
Berlin, Germany
Presentation and Discussion
Security forces, City managers, Policy makers
07.03.2017 KATWARN Regional Meeting East
Halle, Germany
Presentation Security forces, Policy makers
Summary of planned dissemination activities in the third year of the project Approx.
Date Name of the Event Location Tool Target audience
10–12.5.2017 Conference Zadar, Croatia Researchers
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ISESS2017
20–22.7.2017 International Conference on
Connected Smart Cities
Lisbon, Portugal
Research paper, Presentation
Researchers
13–15.9.2017 Workshop “Disaster Management for Resilience and Public Safety”
Luxemburg, Luxemburg
Worksop organisation
Researchers
21–22.9.2017 Workshop “Location-based services and applications” (LBAS2017)
Berlin, Germany
Workshop organisation
Researchers
24–27.10.2017 Conference NGCP 2017
Crete, Greece Research paper, Presentation
Researchers
2.3. Athena Research & Innovation Centre in Information, Communication and Knowledge Technologies
Summary of dissemination activities in the first year Date Name of the Event Location Tool Target audience
18/03/2016 EDBT Research 9: Spatial data processing (19th International Conference on Extending Database Technology - EDBT)
Bordeaux, France
Conference Database researchers, practitioners, developers and users
18/03/2016 EDBT Research 12: Spatial and mobile data (19th International Conference on Extending Database Technology - EDBT)
Bordeaux, France
Conference Database researchers, practitioners, developers and users
06/11/2015 23rd International Conference on Advances in Geographic Information Systems (SIGSPATIAL)
Bellevue, WA, USA
Poster - Demo GIS experts
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Summary of dissemination activities in the second year Date Name of the Event Location Tool Target audience
22-25/05/2016 ACM Conference on Web Science
Hannover, Germany
Poster Scientific community (Web science)
21-24/03/2017 International Conference on Extending Database Technology
Venice, Italy Presentation & Demo
Scientific community (Data management)
2.4. SYNYO GmbH
Summary of dissemination activities in the first year
Date Name of the Event Location Tool Target audience
16-14 November 2015
European Data Forum 2015
Luxembourg Factsheet, Presenting the project through SYNYO booth.
Industry professionals, researchers, policymakers and members of Big Data and the emerging Data Economy community initiatives.
Summary of dissemination activities in the second year Approximate
Date Name of the Event Location Tool Target audience
29/11/2016 Smarter Lives Innsbrück Paper submitted "Age-related Safety and Security – Developing a Novel Threat and Risk Model for Older Adults"
Experts and scientists on ICT solutions for elderly people's security
2.5. Infili Technologies PC
Summary of dissemination activities in the second year Date Name of the Event Location Tool Target audience
May 26-27, 2016
3rd
International Conference on Cryptography, Cyber Security and
Athens, Greece Presentation of City.risks project
Researchers, Security forces personnel, Policy makers
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Information warfare
Summary of planned dissemination activities in the third year of the project Approximate
Date Name of the Event Location Tool Target audience
N/A 4th International Conference on Cryptography, Cyber Security and Information warfare
Athens, Greece Presentation of developments and results of the City.risks project
Researchers, Security forces personnel, Policy makers
25th - 27th October 2017
4th Annual Conference of the European Neighborhood Watch Association (EUNWA)
Heraklion, Greece Presentation of developments and results of the City.Risks project
Researchers, Industry, Policy makers
2.6. Institute of Communications and Computer Systems – ICCS
Summary of dissemination activities in the first year
Date Name of the Event Location Tool Target audience
20-22/10/2016 ICT 2015 Innovate Connect Transform
Lisbon, PT Face to face meetings
ICT companies, Cities, Large industries
21/01/2016 5G PPP phase 2 stakeholder’s meeting
Brussels, BE Face to face meetings
Telecom Industry, Large Companies, SMEs
17/03/2016 5G PPP Information Day
Bologna, IT Face to face meetings
Telecom Industry, Large Companies, SMEs
27-30/6/2016 European Conference on Networks and Communivations 2016
Athens, GR Paper/Poster Telecom Industry, Large Companies, SMEs
Summary of dissemination activities in the second year No specific dissemination activity to be reported. In the second year ICCS contributed to the project Newsletter n. 3 (Designing the City.Risks web portal).
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Summary of planned dissemination activities in the third year of the project Approximate
Date Name of the Event Location Tool Target audience
15/6/2017 European Conference of Network and Communications 2017
Oulu, Finland Presence at the conference
Telecom Industry, ICT Industry, Smart Cities representatives
25-27/10/2017` Next Generation Community Policing Conference
Crete, Greece Conference Organization, Paper Submission, Organization of Workshops
Smart City representative, LEA representative, other H2020 Secure Societies actions
2.7. Freie Universität Berlin
Summary of dissemination activities in the first year
Date Name of the Event Location Tool Target audience
05.2015 Project information published on website
http://www.mi.fu-berlin.de/en/inf/groups/ag-db/projects/City_Risks/index.html
Website Researchers and students
11.2015 ACM SIGSPATIAL Conference
Seattle, USA Poster and paper presentation
Researchers
Summary of dissemination activities in the second year
Date Name of the Event Location Tool Target audience
22-25/05/2016 ACM Conference on Web Science
Hannover, Germany
Poster Scientific community (Web science)
21-24/03/2017 International Conference on Extending Database Technology
Venice, Italy Presentation & Demo
Scientific community (Data management)
2.8. Institute for Criminal Policy Research, University of London
Summary of dissemination activities in the first year
Date Name of the Event Location Tool Target audience
02.2016 ICPR’s website updated with link to the City Risks’
Web-based National/international users of the
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website website
Summary of dissemination activities in the second year No specific dissemination activity to be reported. In the second year ICPR contributed to the project Newsletter n. 2 (Findings on D2.2). Summary of planned dissemination activities in the third year of the project ICPR will disseminate the main findings of the pilot actions in Rome, Sofia and London.
2.9. Malmö University
Summary of dissemination activities in the first year Date Name of the Event Location Tool Target audience
2015-07-15 New project targets European security app
www.mah.se Press release National media
2015-07 News articles in several Swedish national newspapers
Sweden Paper Readers of several Swedish newspapers
2015-07-25 Interview with Marie Torstensson Levander
Malmö Interview Readers of the main local newspaper
Summary of dissemination activities in the second year Date Name of the Event Location Tool Target audience
Fall 2016 Presentation of City.Risks to the Swedish National Council for Crime Prevention (SNCP)
Malmö University
PPT Presentation Key personnel at SNCP
2.10. Roma Capitale
Summary of dissemination activities in the first year Date Name of the Event Location Tool Target audience
03/02/2016 Press release for the survey
Roma Capitale Website
Web General public
04/02/2016 Press release on the project issues
Antifurto Casa website
Web General public
27/03/2016 Press release OmniRoma agency
Web General public
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website
30/03/2016 Press release on the project issues
Roma Capitale Website
Web General public
04/02/2016 Press release on the project issues
Antifurto Casa website
Web General public
Summary of dissemination activities in the second year
Date Name of the Event Location Tool Target
audience
February 28 2017
1st
Conference with the local association of cyclists “BICIROMA” on risks and threatens cyclists are being exposed to in an urban context.
Rome, Italy Presentation of the objectives and goals of the project City.Risks
Public safety, researchers, technicians
Summary of planned dissemination activities in the third year of the project Approx.
Date Name of the Event Location Tool Target
audience
TBC 2nd
Conference with the local association of cyclists “BICIROMA” on risks and threatens cyclists are being exposed to in an urban context.
Rome, Italy Presentation of the goals and results of the project City.Risks
Public safety, researchers, technicians
2.11. The London Borough of Waltham Forest
Summary of dissemination activities in the first year
Date Name of the Event Location Tool Target audience
Ongoing Internal meetings Waltham Forest Verbal updates on City.Risks
Internal council/key stakeholders
Summary of dissemination activities in the second year
Date Name of the Event Location Tool Target audience
April 2016 Walthamstow Business Forum
Local business premises
Presentation Local small businesses
24 Sep 2016 Resident street meeting
Walthamstow Town Centre
Discussion Residents
1 Feb 2017 Locations Programme Town Hall Verbal update Partner
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Board organisations
Summary of planned dissemination activities in the third year of the project Approx.
Date Name of the Event Location Tool Target audience
Summer 2017 Local briefings to stakeholders
In around pilot site(s)
Discussion Residents, businesses, partners, front-line staff
2.12. VIP Security Solutions1
Summary of dissemination activities in the first year Date Name of the Event Location Tool Target audience
28.10.2015 Link to the project site and press release published
Website of Bulgarian chamber for protection and security
Press release Security forces, Citizens and associations
November 2015
Website security.bg (in Bulgarian)
www.security.bg Press release Security forces, Citizens and associations
December 2015
Publication of an article in magazine “Security”
Magazine “Security”
Paper Security forces, Citizens and associations
December 2015
Publication and link of the project on the website of Bulgarian Industrial Association.
www.bta.bg Press release City managers, Policy makers, Researchers
January 2016 Publication of an article in a daily newspaper
www.trud.bg Paper City managers
January 2016 Publication of an article in 21 info websites
21 info websites web General public
Summary of dissemination activities in the second year
Date Name of the Event Location Tool Target audience
14.04.2016 Publication Website of Bulgarian chamber for protection and security
Article about the results of the Social survey regarding the fear of crime
Security forces, Citizens and associations
10.11.2016 Publications’ campaign 20 Bulgarian news Article about Security forces,
1 Previously G4S Bulgaria: the company was bought by VIP on 4/4/2017 (registration and VAT
numbers are the same).
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sites the theft sensor Citizens and associations
11.11.2016 Publication Website of Bulgarian chamber for protection and security
Article about the theft sensor
Security forces, Citizens and associations
10.02.2017 Publication Website of Industrial cluster “Security”
Article about the project and the progress
Security forces, Citizens and associations
24.02.2017 Publication Website of Bulgarian chamber for protection and security
Article about the progress of the project
Security forces, Citizens and associations
28.03.2017 Publication Facebook Article about the project and the progress
Security forces, Citizens and associations
Summary of planned dissemination activities in the third year of the project Approximate
Date Name of the Event Location Tool Target audience
October 2017 (after the trial)
Publication Bulgarian Daily Newspaper (TRUD)
Article about the results after the pilot tests
All citizens
October 2017 (after the trial)
Publication Website of Bulgarian chamber for protection and security
Article about the results after the pilot tests
Security forces, Citizens and associations
October 2017 (after the trial)
Publication Website of Industrial cluster “Security”
Article about the results after the pilot tests
Security forces, Citizens and associations
October 2017 (after the trial)
Publications’ campaign
20 Bulgarian news sites
Article about the results after the pilot tests
All citizens
April/May 2018
Publications’ campaign
Bulgarian news sites
Article about the finalizing of the project
All citizens
2.13. Comune di Prato
Summary of dissemination activities in the first year
Date Name of the Event Location Tool Target audience
18/08/2015 Buone Prassi Prato www.buoneprassi.prato.it
Press release General public
22/09/2015 Il progetto City.Risks www.poloprato.unifi.it
Project description (in Italian)
Students, Academics, General public
25/09/2015 Notte dei Ricercatori (Bright 2015)
PIN - Prato Poster, Brochure
General public
02/10/2015 The City.Risks project MCE web site Project CIOs, ICT
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description managers, researchers
22/12/2015 News from EU projects
MCE web site Newsletter CIOs, ICT managers, researchers
03/03/2016 News on the BLE sensor
PIN web site Press release Students, Academics, General public
04/04/2016 News on the project JOINUP website Web article Researchers
05/04/2016 Introducing City.Risks E-Forum website Web article E-Gov Reasearchers, PAs
08/04/2016 News on the BLE sensor
MCE web site Newsletter CIOs, ICT managers, researchers
Summary of dissemination activities in the second year
Date Name of the Event Location Tool Target audience
30/05-01/06/2016
MCE International Conference
Florence (Italy) Stand and presentation
CIOs, ICT managers, researchers, business
30/09/2016 Notte dei Ricercatori (Bright 2016)
PIN – Polo Universitario Città di Prato
Poster General public
28/11/2016 City.Risks Newsletter – November 2016
Project web site Update on project activities
Newsletter subscribers
December 2016
Bike robbery Project You Tube channel (https://www.youtube.com/watch?v=l4oxbHpTcKE)
Video General public
18/01/2017 News from EU projects
MCE web site Newsletter CIOs, ICT managers, researchers, business
25/01/2017 News on the project JOINUP web site Web article Researchers
06/02/2017 News on the BLE sensor application (in Italian)
ANCITEL web site Web article Public administration, e-Gov experts
06/02/2017 Introducing City.Risks www.eu-forum.org Web article Researchers, PAs, e-Gov experts
06/02/2017 News on the project (in Italian)
COMUNIVERSO web site
Web article PAs, e-Gov experts
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07/02/2017 News on the project (in Italian)
www.anci.it Web article PAs, e-Gov experts
07/02/2017 News on City.Risks Pan European e-Participation Network (PEP-NET EU) Facebook page
Post e-Participation experts
09/02/2017 News on the project (in Italian)
Stati Generali dell’Innovazione (Innovation States General) Facebook page
Post Innovation experts, Pas
24/02/2017 News on the project PIN web site Newsletter Academics, business, Pas, general public
Summary of planned dissemination activities in the third year of the project Date Name of the Event Location Tool Target audience
12-14 Jun 2017
Major Cities of Europe Annual Conference
Zagreb (HR) Presentation and Demonstration
CIOs of European cities, business, researchers
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3. COLLABORATION WITH NETWORK ORGANISATIONS
During the first year several organisations had been identified as possible contacts to exploit and disseminate the project results, on the basis of their public profile [1].
In the second year a selection of such organisations was carried out by analysing their profile more in detail (meanwhile some of them resulted no active anymore) and it was decided to keep the attention just on the most promising in terms of possible co-operation. In the following, the results of such an approach are reported.
3.1. Major Cities of Europe – IT Users group (MCE)
The Major Cities of Europe (MCE) - www.majorcities.eu - network is currently involved in supporting the project through its connection with the City of Prato and PIN S.c.r.l.
In particular, MCE has contributed to the project's dissemination by hosting City.Risks in the annual international conference that was held in Florence (Italy), from 30th May to 1st June 2016 (Figure 8). The project participated in the EU Project corner with a stand and was presented to the audience by the project co-ordinator. The conference had more than 300 participants and it was a very good opportunity to establish contacts and meet people interested in the project's results.
Figure 8 – The MCE conference audience (Florence, 2016).
Furthermore, MCE has contributed in disseminating project results through its newsletter, that has more than 1.500 subscribers, mostly in Europe but also around the world (Figure 9).
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Figure 9 – News on City.Risks published in MCE newsletter.
MCE will keep supporting the project also in the third year: the project has been invited for a speech in the session on City Resilience in the next annual conference, thet will ne held in June 2017 in Zagreb, as detailed in Section 4.
3.2. EUROCITIES
EUROCITIES is the network of major European cities. It comprises the local governments of more than 140 large cities in over 30 European countries. It is a well known and active organization with significant influence within the EU context. The members are Mayors but management at all levels and professionals participate in the different workgroups.
Some contacts were established with the network but unfortunately they were not able to co-operate with the project due to other committments.
3.3. The European Urban Knowledge Network (EUKN)
EUKN is the prime network for urban policy makers, practitioners and researchers throughout Europe offering high quality knowledge and services which inspire them to make cities a better place to live, work and play.
EUKN shares knowledge and experience on tackling urban issues. The key objective of EUKN is to enhance the exchange of knowledge and expertise on urban development throughout Europe, bridging urban policy, research and practice. Thirteen EU Member States (National Focal Points, NFP), EUROCITIES, the URBACT Programme and the European Commission participate in this European initiative.
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EUKN is characterised by a demand-driven approach, based on the needs of urban practitioners and policymakers. EUKN has developed an extensive, high-quality knowledge database, based on shared standards and protocols. This extensive e-library provides free access to case studies, research results, policy documents, context issues, network descriptions, updated news and meetings. Over the past five years, EUKN has proven itself to be an efficient one-stop urban shop, providing city practitioners, policy makers, project managers and other users with high quality urban knowledge and experiences. At the same time, EUKN is more than a virtual knowledge network. It constitutes an international platform stimulating the exchange of knowledge and experiences during international and national meetings, and offering topical dossiers, expert opinions and specific practical assistance through the National Focal Points of the network and support for EU Presidencies.
On 21/02/2017 a the City of Prato partner had a skype conversation with Mart Grisel, the Director of the EUKN, about the possibility of co-operation with City.Risks. He explained that the network is mainly involved in supporting Member States and the Commission in the design and implementation on the Urban Agenda (12 topics covered through international partnerships, http://urbanagendaforthe.eu/partnerships/). Presently the security issue is present only in a peripheral way but they agree that it is becoming a strong point in urban politics and they are interested in co-operating with City.Risks.
During the skype meeting the following was agreed upon:
a) dissemination of project contents through their dissemination channels (newsletter, web site, ...): they will communicate which type of content they require;
b) interview on the project issues: they will send some questions by email and some written remarks will be provided, afterwards they might need some skype call with the coordinator to get some refinements before publishing the interview on the newsletter.
Therefore, we assume that in the third year it will be possible to establish some good type of co-operation with EUKN, particulary in the case they need to reinforce the urban security topic in the Urban Agenda.
3.4. European Forum for Urban Security (EFUS)
It is a European network of 250 local authorities from 16 countries, set up in 1987 in Barcelona, on the initiative of Gilbert Bonnemaison, former Mayor of Epinay-sur-Seine, and under the auspices of the Council of Europe. The network aims to strengthen crime reduction policies and to promote the role of local authorities in national and European policies.
The network works on all major issues relating to urban safety and security, and builds up links between European local authorities by exchanging practices and information as well as through support and training. Furthermore, it acts as a link between local authorities on a national, European and international level.
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The main objective is to promote the role of local authorities through specific programmes, publications and research.
The network is located in Paris and a general assembly of all the members meets once a year. The Executive Committee consists of 32 local authorities, an elected President and 6 national Forums in Germany, France, Italy, Spain, Belgium and Portugal.
On 20 March 2017, the City of Prato partner had a skype meeting with Carla Napolano, Deputy Director of EU Programmes and Network Life for the EFUS network. She explained that the network priority is to support members' activity and since the City of Prato is a member, this will help with the possibility of using the network channels to disseminate the project results.
There is the opportunity for the project to take part in the conference that the EFUS network is organising in Barcelona in November 2017. The event is geared towards all those involved in urban security: elected officials, civil servants, national administration, magistrates, law enforcement agencies, social workers, researchers, and representatives of the private sector and civil society. The conference will address the subject of shared governance between different territorial levels as well as the participation of the private sector and of civil society – particularly citizens – in security policies.
Moreover, the network manages a communication platform where members can exchange information and best practices and this also will represent a good opportunity for disseminating the project's results.
Finally, the network is involved in an INTERREG project dealing with the border security issues and this might also represent a possible occasion for co-operating with City.Risks.
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4. PLANNED DISSEMINATION CONFERENCES
In the last months of the second year some efforts have been devoted to identify future conferences and events that could host the project experience in the final year of activity. Contacts with organisers have been established and participation details have been discussed within the Consortium. As previously reported, a major opportunities is represented by the Major Cities of Europe international conference, as MCE is constantly supporting the project dissemination activities.
Moreover, the connection established with the other EU projects funded on the same call has led to the joint organisation of the Next Generation Community Policing International Conference in October 2017 in Crete (GR). Besides, some other initiatives have been identified as possible opportunities for the project participation. Below, some details on identified opportunities are provided.
4.1. MCE International Conference in 2017
The Major Cities of Europe network is organising its next international conference in Zagreb, from June 12 to June 14 (http://www.majorcities.eu/conferences/2017-zagreb/).
As usual, this annual event will host distinguished speakers from European cities alongside worldwide experts from ICT providers and academia. Emphasis will also be given to high interest solutions from Start-ups, SMEs and EU projects. The program includes topics of interest for CIOs, Policy Makers and City Managers leading innovation in their cities such as:
eGovernment – Putting Lipstick on a Pig?
The Great Vanishing Act – Public Administration and the Impact of Emerging Technology
Boosting the Digital Economy – The Role of Local Public Services
Deep Dive parallel World Cafes
Local Democracy in a Social Media World
City Resilience
Embedding and Facilitating Innovation in Public Services
The City.Risks project will have a speech in the City Resilience session and will participate in the EU projects' corner with a stand, where dissemination materials will be available and some demos will illustrate the project main findings.
4.2. Next Generation Community Policing International Conference
The Next Generation Community Policing (NGCP) International Conference will be co-organized in Crete (25-27 October 2017) by City.Risks and the other six (6) contributing R&D projects funded by the Horizon 2020 SECURITY Program of the European Commission. FCT-14-2014 - Ethical/Societal Dimension Topic 2: Enhancing
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cooperation between law enforcement agencies and citizens - Community policing and FCT-10 – 2014 - Urban security topic 1: Innovative solutions to counter security challenges connected with large urban environment.
The conference will face the following challenges related with the management of security in large urban environments:
Strengthened community policing principles through effective and efficient tools, procedures and approaches.
Early identification, timely intervention, as well as better crime reporting, identification of risks, unreported and undiscovered crime through the community.
Strengthened and accelerated communication between citizens and police forces. Overall, strengthened community feeling and lower feeling of insecurity.
Reduce the fear of crime and enhance the perception of security of the inhabitants of large urban environments.
Better addressing security challenges in large urban environments.
Increase the perception of security of citizens by empowering them, fostering their sense of belonging to a greater community.
Facilitating the engagement of citizens to improve the security conditions of smart cities.
4.3. "Security, Democracy & Cities: Coproducing Urban Security Policies" Conference
Organised by the European Forum for Urban Security (Efus), the Government of Catalonia and the City of Barcelona, this international and interdisciplinary conference will be held on 15-16-17 November 2017 in Barcelona (Spain) and will be dedicated to the coproduction of urban security policies (http://efusconference2017.eu/).
The conference will address the subject of shared governance between different territorial levels as well as the participation of the private sector and of civil society –particularly citizens- in security policies. Possible solutions will be discussed to complement national and European responses, wiith the aim of confronting the challenges that cities have to tackle including the prevention of radicalisation, the fight against discrimination, organised crime, victim support, the organisation of public spaces, nightlife management, etc.
The conference will result in the adoption of a Manifesto, a common policy platform drafted by participants and named after the two hosts. It will follow in the footsteps of previous Manifestos published subsequent to Efus’ international conferences of Montreal (1989), Paris (1991), Naples (2000), Saragossa (2006) and Aubervilliers & Saint-Denis (2012).
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4.4. Smart City EXPO World Congress
The Smart City EXPO World Congress will be held in November 2017 in Barcelona. The event aims to be the place to collectivize urban power, to increase the strength of cities, to identify business opportunities, to establish partnerships and contribute to enacting common policies. A place to share research, best practices and potential common solutions, achieved through effective collaboration.
The event is the meeting point for governments, companies, entrepreneurs and research centers, where cities meet other cities, showcase their projects and find new solutions, and where companies make business. It has turned out to be an exceptional networking platform to connect people working in and with cities around the world who are tackling similar challenges and generating opportunities for action.
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5. CONCERNS ON IPRs AND USE OF THE FOREGROUND
This section includes some information regarding intellectual property rights (IPRs) involved in the components used to design and implement the project applications and those which might affect final products for further exploitation of project results. Moreover, it includes some preliminary considerations anticipating the use of the foreground, which are presently focussed on the products released by Space Hellas (SPH) and Fraunhofer FOKUS (FF), as at this stage they are sufficiently mature to be considered already exploitable, while the rest of the technical solutions provided by the projects are still in the final stage of integration. During the third year, the analysis will therefore be extended and completed for the overall City.Risks platform and services, in order to build a full plan for the exploitation of project results.
The information presented in this section are then to be intendend as a preliminary framework that will represent an input for the "Business Plan" deliverable (D7.6) and will pave the way to the exploitation actions that will be discussed by the Consortium during the third year and will be reported in the deliverable "Plan for the use of the foreground" (D7.8), foreseen at month 36. As anticipated in the Executive Summary, this activity refers to Task 7.3 and, according to the DoW, it is reported in the document describing the dissemination actions carried out by the Consortium. This is the reason why it was included in this deliverable.
5.1. Analysis of IPR framework
Since this is a crucial aspect in all technological development activities, the Consortium agreed in anticipating investigations of such IPR issue, in order to avoid possible problems or misunderstanding in the future preparation and release of a feasible and sustainable business plan (foreseen at the end of the project).
A specific form was produced by Comune di Prato to collect IPR information from technical partners and the results are shown below. Table 2 reports the IPRs identified so far affecting the components used to build the project products, including typology and involved partners, while Table 3 shows the IPR's type related with the project products, together with the involved partners.
In the third year, the presented results will be revised according to the final release of the project products, in order to establish a consolidated picture to support the Consortium's exploitation activities.
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Table 2 – IPR related to used components.
Used Component
Component type (hw, sw,
fw)
IPR type (patent,
trademark, use case, licence)
Project products affected
Involved Partners
STEP Engine (Fraunhofer FOKUS)
SW SW license RMRS: incident management engine
FF
yandex.com Service License RMRS: translation modules
FF
clarifai.com Service License RMRS: translation modules
FF
Classification Engine (Fraunhofer FOKUS)
SW SW license RMRS: filter, classifier, correlator modules
FF
Applozic Chat Service License App: request witness module
FF
Red5 Media Server
SW Open source, Apache license 2.0
RMRS, Operation center
INFT
Table 3 – IPR related to the project products.
Project product Component type: (hw, sw, fw, service)
IPR type (patent, trademark,
use case, license, agreement)
Involved Partners
Operation Center (db, back-end, DB,
etc..) Simulator
Service Service agreement SPH, FF, ATH, SYN, INFT, ICCS, FU
Web portal
Service Service agreement SPH, FF, ATH, SYN, INFT, ICCS, FU
Core platform SW SW License INFT
Sensor HW, FW, SW Service
SW/FW license Service agreement
SPH, ICCS
Gateway HW, FW, SW Service
SW/FW license Service agreement
SPH, ICCS
App: theft detection module
SW SW licence FF, SPH
App: incident reporting module
SW SW licence FF
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App: user identity module
SW SW licence FF
App: device management module
SW SW licence FF
App: request witness module
SW SW licence FF
App: safety-aware routing and navigation module
SW SW licence FF
App: support modules
SW SW licence FF
App: AR SDK SW SW licence FF/HTW
Backend: theft detection endpoint
SW SW licence FF
Backend: incident reporting endpoint
SW SW licence FF
Backend: user identity endpoint
SW SW licence FF
Backend: device management endpoint
SW SW licence FF
Backend: request witness endpoint
SW SW licence FF
Backend: support modules
SW SW licence FF
RMRS: incident management engine
SW SW licence FF
RMRS: translation modules
SW SW licence FF
RMRS: filter, classifier, correlator module
SW SW licence FF
RMRS: Incident monitor
SW SW licence FF
Video streaming service
SW SW license INFT
5.2. Identification of exploitable results produced by Space Hellas
This section describes the exploitable results produced by Space Hellas, i.e. the BLE sensor prototype and the BLE/WIFI Gateway, in accordance with the evolution and development of the technical results during the project lifetime. It provides a preliminary contribution towards the development of potential business scenarios for the commercialization of the project’s components and platform, that will be developed in the third year of the project.
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The presented analysis outlines the exploitable foreground with reference to purposes, exploitation modes and involved subjects, IPR issues, further research actions if required and potential impact.
5.2.1. BLE sensor prototype
The sensor consists of a BLE hardware module which operates as a proximity based mechanism to identify stolen objects. The BLE based tag undergoes distinct operational states, e.g. a beacon ID broadcasting for asset identification. Operational states have been designed, created and validated through software routines and procedures that have been developed in specific development environments. Furthermore, the BLE module is accommodated in a specially designed plastic enclosure that is originally formatted and created through 3D printing. The goal is to develop a small and discrete sensor as a flexible and dynamic solution to transparently identify stolen objects within a specific urban range, through the usage of City Risks networks of participants.
Table 4 summarises the main elements of the exploitation framework identified so far, that will be addressed in more detail in the final year of the project.
Table 4 – Preliminary exploitation isssues for the BLE sensor.
How the foreground might be exploited
The basic operational context of the sensor prototype is to provide an anti-theft BLE based solution to enhance security perception in urban environments. Possible update and/or variant may also include or alternatively integrate a wake up radio mechanism which should trigger beacon mode by receiving a wake up signal triggering from remote base stations. The solution is available to research groups and possible commercial interests for experimentation and extension.
IPR exploitable measures
The prototype is free of using for the Consortium, but remains proprietary.
Further needed research
The current version of the prototype is already mature for usage. Further research is ongoing for making it more proactive, by enhancing configuration rules and making it more adaptive and dynamic. Further effort is required to adopt BLE sensor to other potential applications (e.g. as a wearable device for kids protection) and also to optimize battery consumption. There are many other fields of application for the software and hardware domain, e.g. sensor data acquisition and monitoring by adding extra hardware modules to enable those connections.
Potential/expected impact
The BLE prototype has potential for broader uptake beyond City Risks. Its usage is already devised in other technical applications and solutions. Modularity and expandability of embedded software application is of high appeal to make the sensor model-driven. The anti theft sensor concept addressed in the project reveals the potential of new functionalities which shall definitely play a crucial enabling role to tackle the expected challenges in mitigating perception of fear of crime and increasing safety in urban areas.
Benefits brought to the customers
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The majority of sensors used in IoT anti theft applications are battery-operated sensors, implying very stringent energy consumption requirements for months or years of battery life. The ultimate goal is to maintain BLE tags devices in a low-power state as long as possible when exchanging or waiting to receive data, and entering an active state only when absolutely necessary. The recognized added value of City Risks BLE tag is that it is targeting to minimize energy efficiency.
Sector of applications
The prototype can be customized to support applications for Smart Home portfolio (smart lighting, appliances, energy-control and home-security) and Smart City (smart metering, environmental monitoring). Initial contacts have been established with marketing channels for potential smart city projects and kids protection applications. Further contacts have been established with companies from the security market domain, who are interested in applying similar devices in their portfolio/roadmaps.
Potential customers
Every stakeholder (e.g. ICT management, municipalities, distribution agencies) involved, at different level in the IoT domain and belonging to the following areas: Smart Home and Smart Building, Industrial, Medical, Energy management and Security.
5.2.2. BLE/WiFi Gateway
The BLE/WiFi Gateway device incorporates a BLE module to interface with remote tag sensors, and a Wi-Fi transceiver to provide connection to the Back End Server. Hardware components include Raspberry Pi3, BLE/USB module and BLE booster (where applicable). The Gateway will be deployed in outdoor environments and the WiFi module shall enable the connection between Gateway and Back End Server. The Gateway should broadcast wake up beacon signals to BLE sensors. By default, it supports BLE advertisement communication, however in an extended functionality, it shall enable bidirectional communication, thus being able to receive incoming signals originated by remote BLE tags. It should support incoming message reception advertised from BLE devices and/or advertise command to BLE devices. In other words, gateways shall be designed to operate in observer mode, thus enabling processing of BLE sensor originated messages.
The gateways shall communicate with the City.Risks server hosted in Authority's premises under a specified protocol format and data handling procedures. All previous operation procedures are handled by a specific software firmware developed for executing our City Risks solution.
Table 5 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
Table 5 – Preliminary exploitation isssues for the BLE/WIFI Gateway.
How the foreground might be exploited
The solution is available under license to possible commercial interests in the software engineering community for experimentation and extension.
IPR exploitable measures
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The prototype is free of using for the Consortium, but remains proprietary.
Further needed research
The BLE/WiFi gateway will be further enhanced by developing and implementing various radio networks (LoRaWAN, SIGFOX, 802.15.4). Additionally, the development of enhanced functionalities is under investigation, by exploiting new features recently established under BLE v5.0 framework. The extent of further developments is mostly related to the procurement of new research or commercial initiatives that will motivate significant improvements/adds on both software and hardware components.
Potential/expected impact
The gateway functionality tool is designed to be flexible and dynamic , in order to be able to meet security requirements that may evolve according to the potential of the market needs. The goal is to have a flexible and dynamic solution to guarantee interoperability, thus avoiding reliance on given standards or interfaces.
Benefits brought to the customers
The gateway facilitates communication with remote tags and can be customized to include various radio communication networks.
Sector of applications
Applicable to Smart City, Smart Home, security applications.
Potential customers
Municipalities, utilities managing sensor networks, security agencies.
5.3. Identification of exploitable results produced by Fraunhofer FOKUS
This section describes the exploitable results produced by Fraunhofer FOKUS, including the App and the Backend services, the Augmented Reality SDK, the Incident Managment Engine, the Incident Filter and Classifier Modules, the Report Translation Module and the Incident Monitor component. It provides a preliminary contribution towards the development of potential business scenarios for the commercialization of the project’s components and platform, that will be developed in the third year of the project.
5.3.1. App and App Backend
App and App backend include various modules for the different use cases supported by the City.Risks project. Except for the support modules, which are needed in any case, the others are independent of each other as far as possible. To implement certain use cases, however, a specific set of modules might be required.
This is the list of the developed modules, according to their functionality and implementation mode:
theft detection modules (app, backend)
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incident reporting modules (app, backend) user identity module (app, backend) device management module (app, backend) request witness module (app, backend) safety-aware routing and navigation module (app) support modules (app, backend)
Table 6 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
Table 6 – Preliminary exploitation isssues for the App and App Backend.
How the foreground might be exploited
The App modules are packaged in the form of libraries for the Android platform. These libraries can be integrated into an existing or a new (smart) city mobile app. The City.Risks mobile app itself is designed to showcase all the functionality developed and prove its feasability. Modules and components have been designed and decomposed along functionalities to be able to address different sets of requirements and to be able to flexibly rebundle them for use in exploitation projects.
Further needed research
For most applications, adding app modules for other platforms (at least for iOS) would be necessary, to reach a relevant user base. The backend modules, however, can be used without further adaptation.
Benefits brought to the customers
A major benefit is the possiblity of a fast implementation and deployment of a secure and privacy preserving solution for safety-related or other smart city applications.
Sector of applications
Fields of application encompass:
smart city projects, safety-related projects projects supporting citizen envolvement
Potential customers
Companies implementing (smart) city applications, which include mobile apps, Web apps, or other user interfaces for flexibly connecting authorities with citizens, would be seen as potential customers.
5.3.2. Augmented Reality - SDK
The Augmented Reality - SDK provides the functionality to implement geo-based augemented reality functions for the Android platform that is independent of other third party modules. It provides for displaying and interacting with point-based POI data as well as linear or polygonal areas in an augmented reality view.
Table 7 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
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Table 7 – Preliminary exploitation isssues for the Augmented Reality - SDK.
How the foreground might be exploited
The SDK can be easily integrated in mobile Android apps, to add AR functionality.
Further needed research
The SDK can be used in different areas for geo-based AR experiments or mobile apps. Depending on non-functional requirements of these apps or research experiments, improving precision of the AR display might be necessary and will be focus of further development.
Potential/expected impact
The AR-SDK can be used in any other app-developing project and is not restricted to the scope of citizen safety adopted in the City.Risks project.
Benefits brought to the customers
The market of augmented reality framworks is currently more or less empty, since most of the relevant players have been bought up by big companies. The AR SDK provides the possibility to implement AR features into an app inspite of that situation.
Sector of applications
Any project that benefits from overlaying data visualisations with life video captured by a smartphone camera, e.g., smart city projects, environmental, tourism, or gameing projects could benefit from using the AR SDK.
Potential customers
Companies implementing Android applications which would benefit from geo-based augmented reality, would be seen as potential customers.
5.3.3. Incident Mangement Engine
The incident management engine is part of a risk management, alerting and response service, that provides reactive as well as pro-active functionalities. Those functionalities include, for instance, (semi-)automatic real-time analysis of incoming reports (from mobile app users, Web application users or external sources) or community requests, based on semantical and spatio-temporal analytics methods.
Table 8 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
Table 8 – Preliminary exploitation isssues for the Incident Management Engine.
How the foreground might be exploited
The implementation of the engine is based on a semantic spatio-temporal event processing (STEP) paradigm, that comprises processing of streams of complex events featuring spatial and temporal properties. It is very flexible through use of rule-based mode of operation. Existing rule sets (as developed for City.Risks) are decomposed along lines of use cases and can be used as is or easily adapted to reflect project requirements. Additional external components and services can be easily integrated and orchestrated through the use of the single-request/multiple-response model.
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Further needed research
To ensure fast processing of incoming information, load testing for the different use cases developed by City.Risks would be advisable. Developers would also benefit from reviewing, generalising, and optimising the incident and report model. Implementation of other use cases is also possible, but requires programmatic adaptation of the information model as well as specification of the rules describing the necessary work flows.
Benefits brought to the customers
The incident management engine provides the means for a fast implementation and deployment of a flexible service orchestration for various application cases including safety-related or other smart city applications.
Sector of applications
Fields of application include:
smart city projects, safety-related projects projects supporting citizen participation projects that aim at delivering decision support and improving situation awareness in
an operation centre
Potential customers
Companies implementing (smart) city applications, that include proactive or reactive communication between different stake holders, e.g., operation centers, mobile apps, Web apps, or other user interfaces for flexibly connecting authorities with citizens, would be seen as potential customers.
5.3.4. Report Translation Modules
Report translation modules provide the functionality to (1) translate textual parts of a report into a common language (currently English), and (2) describe content of images through the use of tags from a given vocabulary.
Table 9 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
Table 9 – Preliminary exploitation isssues for the Report Translation Modules.
How the foreground might be exploited
The modules connect to clients (e.g., the incident management engine) using a request/response scheme over a communciation bus. That means they can also be flexibly integrated into existing or independently developed information processing infrastructures.
Further needed research
Components for the Clarifai and Yandex services, which have been prototypically implemented, can be used as is; integration of other third-party services would require adapting to the interface of the respective service. Further development could comprise extending the functionality to video recognition, or to create and use specific models for image and video recognition using application-specific learning data. Another service that would complement the existing two would be audio transcription.
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Benefits brought to the customers
The modules provide the means for a fast implementation and deployment of information translation and description functionality into existing or newly developed information processing infrastructures.
Sector of applications
Projects that aim at providing information retrieval, matching and/or decision support in multi-lingual environments would benefit from the use of these modules.
Potential customers
Companies implementing operation centre software that includes visual reports and/or textual data using different languages, such as from social networks or other communities, would be seen as potential customers.
5.3.5. Incident Filter and Classifier Modules
Filter and classifier modules provide functionality to assess documents (e.g., reports) based on their textual parts or associated sets of tags (e.g., from image recognition). They can use different ontologies, to adapt to application requirements.
Table 10 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
Table 10 – Preliminary exploitation isssues for the Incident Filter and Classifier Modules.
How the foreground might be exploited
The modules connect to clients (e.g., the incident management engine) using a request/response scheme over a communciation bus. That means they can also be flexibly integrated into existing or independently developed information processing infrastructures. The modules use an information retrieval and classification service (that has been developed at Fraunhofer FOKUS in the scope of another project) that itself is based on free or open source third party components (Lucene, Apache Fuseki). Exploitation will in most cases involve creating application-specific ontologies for filtering and classfication.
Further needed research
The classification service can be also used to correlate reports or sets of reports (a functionality that has been desiged but not yet implemented).
Benefits brought to the customers
The modules provide the means for a fast implementation and deployment of information assessment functionality into existing or newly developed information processing infrastructures.
Sector of applications
Projects that need information assessment and classification functionality, e.g., projects that aim at delivering decision support and improving situation awareness in an operation centre, would benefit from using the filter and classification modules.
Potential customers
Companies implementing applications, that include automatic or semi-automatic
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assessment and pre-processing of incoming information, e.g., from social media, would be seen as potential customers.
5.3.6. Incident Monitor Tool
The incident monitor serves as a development or demonstration tool, that provides functionality to display incident information from the incident management engine on a geographical map.
Table 11 summarises the main elements of the exploitation framework, that will be addressed in more detail during the third year.
Table 11 – Preliminary exploitation isssues for the Incident Monitor Tool.
How the foreground might be exploited
The monitor is a stand-alone Web-application that connects to the output stream of the incident management engine. The current version is able to display information based on the incident model of the engine, but can be easily adapted to serve as a reactive, live-update display for any other geo-based information.
Further needed research
Since the monitor’s intended use is by developers or other project staff, it doesn’t have industry-strength requirements in terms of stability and performance, so it can be used as is. Slight adaptation would be necessary to extend the monitor’s functionality to other information models.
Benefits brought to the customers
The monitor presents a easy-to-use solution for displaying the results of geo-based information processing workflows.
Sector of applications
The monitor could be used for developer support for projects involving stream-based geo-information processing.
Potential customers
Companies implementing (smart) city applications, or any other applications that include processing streams of information records with spatio-temporal properties, would be seen as potential customers.
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6. CONCLUSIONS
This document reports an update on dissemination activities carried out in the second year by the City.Risks consortium as a whole and by each partner. The latter are described in more details in the Annex.
Moreover, it gives some preliminary information regarding the IPR and exploitation issues, that will represent an input for the drafting of D7.6 – Business Plan and D7.8 – Plan for the use of the foreground that are foreseen at M36. This issue is in accordance with the DoW, where it is stated that IPR analysis and exploitation concerns are included in Task 7.3, to be reported in the dissemination report.
A final review of the reported dissemination efforts is given below.
Table 12 summarises the dissemination material produced by the Consortium and currently available for dissemination activities.
Table 12 – Summary of dissemination material and communication channels.
Dissemination material and channels
Project brochure 1 translated in all consortium languages
1 in English
Project factsheet 1 in English
Project newsletter 3 in English
Project video 2 in English
Project roll-up 4 different versions in English
Project website 1 in English
Project logo high resolution, medium resolution, low resolution
Twitter profile 1
LinkedIn group 1
You Tube channel 1
Table 13 summarises the dissemination actions carried out by partners in the second year, while Figure 10 shows the distribution of dissemination activities according to their different typologies: national and international press releases (including newspapers, websites, outside newsletters), papers and books, national and international events, project newsletter.
Table 13 – Summary of dissemination activities in the second year.
Dissemination activities
Scientific papers 6
National events 8
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International events 2
National press releases 27
International press release 4
Project newsletters 2
TOTAL 49
Figure 10 – Distribution of dissemination activities in the second year.
The main percentage is represented by national press releases, and this is coherent with the proposed dissemination approach, since the main effort was put in increasing the project knowledge and awareness at local/national level by each partner, according to its role. The production of scientific papers is also at a good level, particularly as far as technological aspects developed in the project are concerned. The number of participated events has slightly increased with respect to the first year, due to the consolidation of the technological approach to be demonstrated.
In the third year of the project a larger participation in national and international events is expected, as well as an increase in paper publication to present and discuss the final project results and application in the pilot trials.
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Annex : Dissemination activities in the second year
Reporting of Scientific Papers/Books
Partner: Space Hellas Title: Theft Detection using Internet of Things BLE-based participatory Sensing Concepts” Status: Published Published in/by: 2016 European Conference on Communications and Networks (EuCNC), Athens, Greece, June 27-30, 2016 Date: Summary: This paper presented the participatory sensing system developed in City.Risks that uses everyday mobile phones and simple BLE tags to locate stolen items. City Risks application users carrying their smart phone running a BLE scanning application will be able to locate stolen assets and accordingly notify the centralized server.
Link: (if online)
Partner: Fraunhofer FOKUS/HTW (Burkard, Simon; Fuchs-Kittowski, Frank; Himberger, Sebastian; Fischer, Fabian; Pfennigschmidt, Stefan) Title: Mobile Location-based Augmented Reality Framework Status: published
Published in/by: Roth, Michael (Hrsg.): Ortsbezogene Anwendungen und Dienste. Proceedings of GI-Workshop LBAS2016, 22-23 September 2016, Jena, Germany, Logos Verlag, Berlin Date: 22-23 September 2016 Summary: Location-based augmented reality (GeoAR) can be used as an innovative method for presenting spatial data in context in various domains. Although, AR software development kits (SDK) exist, none of them can be used efficiently in a broader spectrum of applications, because, they generally lack important features or possibilities for adaptation. This paper presents the concept, implementation of a location-based AR development kit (SDK) along with example applications. The SDK provides core features that are necessary for location-based AR and enable developers to implement individual and highly adaptable mobile applications based on location-based AR. Link: (if online)
Partner: Freie Universität Berlin and Athena Research & Innovation Centre in Information, Communication and Knowledge Technologies Title: Keyword-based retrieval of frequent location sets in geotagged photo trails Status: Published Published in/by: Proceedings of the 8th ACM Conference on Web Science Date: 22-25/05/2016 Summary:
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We propose and study a novel type of keyword search for locations. Sets of locations are selected and ranked based on their co-occurrence in user trails in addition to satisfying a set of query keywords. We formally define the problem, outline our approach, and present experimental results. Link: http://doi.acm.org/10.1145/2908131.2908204
Partner: Freie Universität Berlin and Athena Research & Innovation Centre in Information, Communication and Knowledge Technologies Title: Finding Socio-Textual Associations Among Locations Status: Published Published in/by: Proceedings of the 20th International Conference on Extending Database Technology Date: 21-24/03/2017 Summary: An increasing amount of user-generated content on the Web is geotagged. This often results in the formation of user trails, e.g., sequences of photos, check-ins, or text messages, that users generate while visiting various locations. In this paper, we introduce and study the problem of identifying sets of locations that are strongly associated under social and textual criteria. We say that a location set is associated with a set of keywords if there exists a user with posts around these locations whose textual descriptions cover all keywords. We measure the strength of this association by the number of users with posts that support it. Although the problem reminisces frequent itemset mining, we show that our support measure does not satisfy the necessary anti-monotonicity property, which is used to effectively prune the search space. Nonetheless, by studying the characteristics of the support measure, we are able to devise an efficient approach. We present a basic and two optimized algorithms, exploiting an inverted or a spatio-textual index to increase efficiency. Finally, we conduct an experimental evaluation using geotagged Flickr photos in three major cities. From a qualitative perspective, the results indicate that the introduced type of query returns meaningful and interesting location sets, which are not discovered by other existing approaches. Furthermore, the proposed optimizations and the use of appropriate indexes significantly reduce computation time. Link: http://openproceedings.org/2017/conf/edbt/paper-125.pdf
Partner: Freie Universität Berlin and Athena Research & Innovation Centre in Information, Communication and Knowledge Technologies Title: μTOP: Spatio-Temporal Detection and Summarization of Locally Trending Topics in Microblog Posts Status: Published Published in/by: Proceedings of the 20th International Conference on Extending Database Technology Date: 21-24/03/2017 Summary: User-generated content in social media can offer valuable insights into local trends, events, and topics of interest. However, navigating through the vast amounts of posts either to retrieve certain pieces of information or to obtain an overview of the existing content, is often a challenging and overwhelming task. In this work, we present μTOP, a system for detecting and summarizing locally trending topics in
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microblog posts based on spatial, temporal and textual criteria. Using a sliding window model over an incoming stream of posts, μTOP detects locally trending topics, and associates each one with a spatio-temporal footprint. Then, for each spatial region and time period in which a certain topic is trending, the system generates a summary of the relevant posts, by selecting top-k posts based on the criteria of coverage and diversity. μTOP includes a Web-based user interface, providing a comprehensive way to visualize and explore the detected topics and their spatio-temporal summaries via a map and a timeline. Link: http://openproceedings.org/2017/conf/edbt/paper-412.pdf
Partner: SYNYO Title: Age-related Safety and Security – Developing a Novel Threat and Risk Model for Older Adults Status: Submitted Published in/by: Proceedings of the Smarter Lives event in Innsbrück Date: 21.11.2016 Summary: Personal safety and security are essential factors for quality of life. In an ageing society, Active and Assistive Living (AAL) technologies aim to improve safety and security of older adults. Yet, there is no holistic model on risks and threats, which older adults are exposed to. In order to tackle this issue, a literature research is conducted, providing a holistic view on factors in safety and security related to health, ability, crime and social environment. Based on the insight, a novel risk and threat model for older is postulated and verified against literature. Suggested potential applications of the model promote future social and technical innovation in AAL and related areas tailored to the safety and security needs of older adults. Link: N/A
Reporting of Events
Partner: Space Hellas Title: Major Cities Conference 2016: City Renaissance in the Digital Age Location:Florence Date: May 30 2016-June 1 2016 Target:City Authorities Description: 400 delegates from all over Europe Cities and further afield participated in this year’s Host City Firenze and had the opportunity to share innovative practices and international as well as local experiences. This year’s topics: – E-government and Digital transformation – Research develops innovative approaches for citizen’s participation – From young to old age: education, health and social services – What does the future hold? – The devil’s debate about e-government, digital transformation and smart cities – Citizen’s participation The programme included also major ICT providers presenting study cases, elevator
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pitches from innovative start-ups and presentations about the results of relevant EU projects. City.Risks had a stand at the EU Project Corner and a presentation of the Project Coordinator Socrates Costicoglou the last day at Session 10.
Material: (please add link to dissemination material showed or distributed at the event, collect photos of the event)
Local/National/International: International
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Partner: Fraunhofer FOKUS/HTW
Title: Workshop "Disaster Management for Resilience and Public Safety" Location: Berlin Date: 14-16.9.2016 Target: Experts from research, industry and education in the field of disaster management. Description: The workshop that was collaboratively organised by HTW and Fraunhofer aimed at reporting about state-of-the-art applications of ICT as well as newest developing trends in the field of disaster management for all phases of the disaster cycle (preparedness, prevention, alert, response, mitigation) with special focus on resilience and public safety. The interdisciplinary workshop brought together experts from research, industry and education to exchange ideas and proposals and to share experiences and best practices as well as concepts and research questions in the area of „disaster management for resilience and public safety“. The topics discussed included core City.Risks subjects like Disaster information systems, Communication, Modeling and Simulation, Situational Awareness and Multi-Actor Integration. Material: Part 1: http://enviroinfo2016.org/sessions/disaster-management-for-resilience-and-public-safety/ Part 2: http://enviroinfo2016.org/sessions/disaster-management-for-resilience-and-public-safety-part-2/ Local/National/International: (please choose one) National
Partner: Fraunhofer FOKUS Title: AG Sicherheit im Rahmen des Netzwerk Smart City Berlin (WG Safety of the Network Smart City Berlin) Location: Berlin Date: 27.02.2017 Target: Description: Presentation and discussion of City.Risks goals and technologies with members of the AG Sicherheit im Rahmen des Netzwerk Smart City Berlin (WG Safety of the Network Smart City Berlin). Fraunhofer presented an overview of the project and discussed goals and technological possibilities in the area of public safety. Material: Slides have been used to present the project and initiate the discussion.
Local/National/International: (please choose one) Local
Partner: Fraunhofer FOKUS Title: KATWARN Regional Meeting Ost (KATWARN Regional Meeting East) Location: Halle, Germany
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Date: 7.03.2017 Target: Description: Presentation of City.Risks goals and technologies to users of the KATWARN system for sending public warnings and behavioural advice directly to citizens affected (www.katwarn.de/en). Fraunhofer presented an overview of the project and discussed technologies as well as possible integration of selected functionality into the KATWARN system. Material: Slides have been used to present the project and initiate the discussion.
Local/National/International: (please choose one) National
Partner: Infili Technologies PC Title: 3rd International Conference on Cryptography, Cyber-Security and Information Warfare (3rd CryCybIW) Location: Athens, Greece Date: 26-27 May 2016 Target: Scientists, military academies, defense experts Description: A presentation has been held by A. LITKE and N. PAPADAKIS with the title “City.Risks: Avoiding and Mitigating Safety Risks in Urban Environments”. The presentation was referring to the project overview, its goals and the interim results. https://sse.army.gr/sites/sse.army.gr/files/attachments/conference_announcement_in_english.pdf Material: Available on request Local/National/International: International
Partner: University of Malmö Title: Presentation of the City.Risks project Location: Malmö University Date: Fall 2016 Target: Representatives from Swedish National Council for Crime Prevention (SNCP) Description: A day dedicated to SNCP's National Crime Survey in which City.Risks was introduced as a project that deals with public safety using innovative solutions. Material: PowerPoint presentation in Swedish Local/National/International: National
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Partner: Roma Capitale Title: City.Risk project presentation Location: Rome Date:28 February 2017 Target: Public safety, researchers, technicians, bike associations Description: We discussed about the problem of safety in an urban context and how information can make user feel safer. We specifically focused on the analysis of the risks run by cyclists in an urban environment. Material: Available on request Local/National/International: Local
Partner: Waltham Forest Council Title: Greenleaf Rd police street briefing Location: Junction of Greenleaf Rd and Hoe St, London E17 opp. Rose & Crown Public House Date: September 2016 Target: Residents, small businesses, council front line staff, police, council members Description: Street briefing called by Waltham Forest Council portfolio member for Young People. Discussion with residents and police regarding drug dealing, street harassment of women, anti-social behavior and possible solutions. Main interventions discussed were installation of CCTV, cutting back of trees and installing additional lighting. Also discussed use of apps including City.Risks but there are other similar apps in use. Material: Verbal presentations and project brochure. Local/National/International: Local
Partner: Waltham Forest Council Title: Priority Crime Locations Programme Board Location: Walthamstow Forest Town Hall Date: February 2017 Target: Board members (police, regeneration professionals, planning, asb, neighbourhood officers, housing groups Description: Agenda item about Business Crime Reduction Forum which we want to use to promote City.Risks. Material: PPT presentation and project brochure. Local/National/International: Local
Partner: Comune di Prato Title: Bright 2016 – La notte dei ricercatori in Toscana Location: Prato (Italy)
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Date: 30/09/2016 Target: Citizens, researchers, public administration Description: The Researchers' Night is an initiative promoted by the European Commission aiming at creating opportunities for the interaction between researchers and citizens to spread scientific culture and knowledge of the profession of researcher in an informal setting . For the occasion, the University of Florence has programmed many events in several universities, including Prato. The Tuscany Researchers' Night is celebrated within the "Bright2015" initiative (http://www.bright-toscana.it/). In Prato laboratories and research centres opened their stands to citizens and stakeholders, to present their activities and results. Material:
Local/National/International: Local
Reporting of Press Releases
Partner: G4S Headline: CITY.RISKS project / Проект „Градски рискове“ Published in: Website of Bulgarian chamber for protection and security –Article about the results of the Social survey regarding the fear of crime Date: 14.04.2016 Scan: The text of the article is in Bulgarian. http://www.bkos.org/index.php?MlW-
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gRWnIVSjMVWHUtKbcJSvY5efIJeDMxerIlKzU5avQZeXUtaHkZKLg5av&page=1
Link: http://www.bkos.org/index.php?MlW-gRWnIVSjMVWHUtKbcJSvY5efIJeDMxerIlKzU5avQZeXUtaHkZKLg5av&page=1
Partner: G4S Headline: CITY.RISKS project / Проект „Градски рискове“ Published in: Website of Bulgarian chamber for protection and security –Article about the theft sensor Date: 11.11.2016 Scan: The text of the article is in Bulgarian. http://www.bkos.org/index.php?MlW-gRWnIVSjMVWHUtKbcJSvY5efIJeDMxerIlKzU5avQZeXUtaHkZKLg5av&page=1
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Partner: G4S Headline: CITY.RISKS project / Проект „Градски рискове“ Published in: 20 Bulgarian news sites –Article about the theft sensor Date: 10.11.2016 Scan: The text of the article is in Bulgarian. 11.11.2016 г.
Пресцентър PR
G4S SECURITY SOLUTIONS EOOD-11/11/2016 - (20 НОВИНИ)
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11 2016 12:00 Медия: OPHRD News
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за
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активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: BGnovini
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определя е локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: VIEWnews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и
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радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S S urity Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: TVnews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str. 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за
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разкриване на кражби Дата: 10.11.2016 12:00 Медия: dnesnews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikole a Atanasova Security Dir ctor G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: Po itika BG
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks,
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мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 2 -208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: Fundsnews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта въ ху City.Risks платформа а. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: EU-novini
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver –
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радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD 59 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: EUfundsnews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia ww g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: NEXTnews
City.Risks Deliverable D7.3
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Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Sec rity Director G4S Securi y Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: Opnews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Offic 207-208, Building 3, 1 Bus ness Park Sofia Str., 1766 Sofia www.g4s.bg
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Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: Segabg
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: BGl venews
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както
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следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 5 5 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: ActualnoBG
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia w w.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: Aferabg
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие
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дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Busin ss Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: BG Vesti
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 B siness Park Sofia Str., 176 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00
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Медия: Bgnovina
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 51 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Ме ия: OPK News
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359
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884 505 151 Office 207-208, Bui ding 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: Novini-bg
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 Sofia www.g4s.bg
Заглавие: CITY.RISKS разработва иновативен датчик за разкриване на кражби Дата: 10.11.2016 12:00 Медия: OPRR news
Проектът City.Risks е в процес на разработка и имплементиране на иновативен малък датчик, съчетаващ Bluetooth Low energy (BLE) и радиобазирани технологии за идентифициране и локализиране на откраднати предмети чрез използването на City.Risks мрежа от граждани. Ключовото предизвикателство при проектирането е как ще се покрие дистанцията между Базовата станция и нискоенергийното блутут устройство BLE. Следователно, вместо да се имплементира WuR (wake-up radio receiver – радио приемник за „събуждане“) заедно с BLE устройството, позиционирано в предмета, ще бъде монтиран BLE/WiFi порт, който равномерно ще покрива и достига BLE сензор срещу кражба. Предвидени са две алтернативи за
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активиращи механизми: чрез BLE/WiFi порт, и/или чрез смартфоните на потребителите в общността, които изпращат сигнал за „събуждане“ на BLE устройството. Основните компоненти на системната архитектура са, както следва: батерия, захранваща BLE сензорно устройство, BLE/WiFi радио порт за осъществяване на комуникацията между платформата City.Risks, мобилното приложение City.Risks и BLE устройствата за определяне локацията на обекта върху City.Risks платформата. За контакт: Nikoleta Atanasova Security Director G4S Security Solutions EOOD +359 2 976 0 954 +359 884 505 151 Office 207-208, Building 3, 1 Business Park Sofia Str., 1766 ofia www.g4s.bg
Partner: Comune di Prato Headline: City.Risks newsletter – November 2016 Published in: City.Risks Newsletter Date: 28/11/2016 Scan: NA Link: http://project.cityrisks.eu/wp-content/uploads/2016/11/Newsletter2_Nov2016.pdf
Partner: Comune di Prato Headline: City.Risks is completing the design of the platform tools to be tested in different use cases in pilot cities. Published in: MCE Newsletter Date: 18/01/2017 Scan: NA Link: (http://www.majorcities.eu/wp-content/uploads/2014/02/Conference-2017-
zagreb-.pdf)
Partner: Comune di Prato Headline: News from the City.Risks project Published in: https://joinup.ec.europa.eu Date: 25/01/2017
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Link: https://joinup.ec.europa.eu/node/158605
Partner: Comune di Prato Headline: City.Risk: la soluzione per trovare la bici o l’auto rubata e per una città più sicura (in Italian)
Published in: ANCITEL website (http://portale.ancitel.it) Date: 06/02/2017 Scan:
Link: http://portale.ancitel.it/city-risk-la-soluzione-per-trovare-la-bici-o-lauto-rubata-e-per-una-citta-piu-sicura/
Partner: Comune di Prato Headline: Introducing City.Risks Published in: http://www.eu-forum.org Date: 06/02/2017
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Link: http://www.eu-forum.org/item/104-introducing-city-risks
Partner: Comune di Prato Headline: City.Risk: la soluzione per trovare la bici o l'auto rubata e per una città più sicura (in Italian) Published in: http://www.comuniverso.it Date: 06/02/2017
Link: http://www.comuniverso.it/index.cfm?City.Risk:%20la%20soluzione%20per%20trovare%20la%20bici%20o%20l%27auto%20rubata%20e%20per%20una%20citt%C3%A0%20pi%C3%B9%20sicura&tipo=notizie&id=1245
Partner: Comune di Prato Headline: Programma H2020 – Prato e Roma in un progetto di sicurezza urbana Published in: http://www.anci.it Date: 07/02/2017
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Link: http://www.anci.it/index.cfm?layout=dettaglio&IdSez=821213&IdDett=59511
Partner: Comune di Prato Headline: News on City.Risks Published in: Pan European e-Participation Network (PEP-NET EU) Facebook page Date: 07/02/2017
Link: https://www.facebook.com/photo.php?fbid=10211904303540222&set=o.18139139362&type=3
Partner: Comune di Prato
Headline: Notizie sul progetto City.Risks Published in: Stati Generali dell’Innovazione (Innovation States General) Facebook page
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Date: 09/02/2017
Link: https://www.facebook.com/photo.php?fbid=10211934095445001&set=o.221799384497860&type=3
Partner: Comune di Prato Headline: Progetto City.Risks – Lo smartphone e la tecnologia per aumentare la sicurezza. (in Italian) Published in: PIN S.c.r.l. Newsletter Date: 24/02/2017
Link: http://www.poloprato.unifi.it/it/news/articolo-home.html?tx_ttnews%5Btt_news%5D=1498&cHash=11c56ba3c9cb703ad408884a9defea03
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Partner: Comune di Prato Headline: City.Risks newsletter – April 2017 Published in: City.Risks Newsletter Date: 11/04/2017 Scan: NA Link: http://project.cityrisks.eu/news/newsletter-april-2017/
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Bibliography
[1] City.Risks Consortium, Deliverable D7.2 – Dissemination Activities, Report I.
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List of Acronyms
Acronym Explanation
BLE Bluetooth low energy (Bluetooth LE, BLE, marketed as Bluetooth Smar) is a wireless personal area network technology designed and marketed by the Bluetooth Special Interest Group aimed at novel applications in the healthcare, fitness, beacons, security, and home entertainment industries. Compared to Classic Bluetooth, Bluetooth Smart is intended to provide considerably reduced power consumption and cost while maintaining a similar communication range.
IPR Intellectual property rights (IPRs) are the protections granted to the creators of intellectual property and include trademarks, copyright, patents, industrial design rights and, in some jurisdictions, trade secrets. Artistic works including music and literature, as well as discoveries, inventions, words, phrases, symbols, and designs can all be protected as intellectual property.
RMRS Risk Management Response Service is the component of the City.Risks platform managing the following functionalities: interpreting incoming reports (events) in the context of previous events, identifying patterns in the event stream, sending out alerts about detection of dangerous (or otherwise interesting) patterns, notifying app users, notifying web portal users, notifying operators.
SDK A software development kit (SDK or devkit) is typically a set of software development tools that allows the creation of applications for a certain software package, software framework, hardware platform, computer system, video game console, operating system, or similar development platform.