smart grid : secure and sustainable energy
TRANSCRIPT
TRIPURA UNIVERSITY
(A CENTRAL UNIVERSITY)
Global Initiative on Academic Network
Smart Grid : Secure and Sustainable Energy
16th - 25th September 2016
SMART GRID: SECURE AND SUSTAINABLE ENERGY
MHRD Scheme on Global Initiative on Academic Network (GIAN)
Foreign Expert Speaker: Dr. Vidyasagar Potdar, Curtin University, Australia
Venue: Department of Electrical Engineering, Academic Building 9, Tripura University
Dates: 16th
September – 25th
September, 2016,
Closing of Application process: 01-09-2016
Overview
Electricity costs are predicted to skyrocket in the coming years and it’s expected to double over the
next 5 years due to challenges in resources development and climate change, and this is a worldwide
issue.
Smart Grid achieves bidirectional energy and information flow between the energy user and the utility
grid, allowing energy users to generate energy and share with the utility grid or with other energy
consumers. “Prosumer” is the energy user who consumes as well as generates energy and they form a
“Prosumer Community Smart Grid”. The key objective of a Prosumer community smart grid is to be
self-sufficient and sustainable and to share the excess energy amongst the community first and then
auction the rest to the utility grid.
This course introduces the basic concepts in the area of Smart Grid and later discusses Cyber Security
of Smart Grid in details.
Objectives:
There are a number of research issues and challenges that need to be addressed to implement
and realize the community smart grid vision. These are
Introduction of Smart Grid,
Identifying and attracting more dynamic prosumers to the community
Motivating new Prosumer to join the community
Keeping sustainable growth in Prosumer base
Understanding and optimizing energy generation, consumption and sharing patterns
Understanding and managing negative or selfish behaviours in a community
Securing the community grid from cyber-attacks
Providing a trusted environment for the community to operate
Innovative sensor technology design and development
Risk assessment, management and mitigation
Ensure network availability and integrity
Load modelling and prediction under different weather conditions
This tutorial will discuss these issues and outline how these issues can be addressed.
Specifically this tutorial will cover the following:
1. Introduction to the Prosumer Community Framework of Smart Grids for Community
Formation, Community Growth and Community Management using crowd-sourcing and
crowd-sensing approach to ensure long term and sustainable community participation in
the energy generation process.
2. Introduction and interplay between Smart Grids, Wireless Sensor Networks and Cyber-P
Systems infrastructure for efficiently capturing high quality sensor data for
communication, network monitoring (i.e. load prediction, load balancing) and network
visualization.
3. Introduction to smart grid communication protocols for load modelling and prediction,
heterogeneous communication across different sensors, optimal service and resource
discovery, price forecasting, incentive schemes for Prosumer motivation and participation,
trust and risk management
4. Introduction to cyber-security infrastructure within the smart grid community to protect the
critical energy infrastructure against malicious network attacks and anomalies.
Course details
Module A : Smart Grid
Module A : Smart Grid
Day Date Lecture Topic Day 1
16th September 2016 ,Friday
Lecture 1 9:30 to 10:30 AM 1 hour
Introduction of Smart Grid Definition Differences with traditional grid Smart Grid Drivers Main Actors World Scenerio India Scenerio Legislations Applications
Lecture 2 10:45A.M. to 12:15 PM 1:30 hrs
Introduction of Smart Grid Electricity Systems Smart Grid Technologies Smart Grid Benefits Government & Industry Initiatives Standardization
Major Players Smart Grid Policy
Tutorial 1 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Day 2
17th September 2016 , Saturday
Lecture 3 : 9:30 to 10:30 AM
Smart Grid Infrastructure – Energy
Power Generation Transmission Distribution Micro-grids Grid to Vehicle Vehicle to Grid Current state of research and future research directions
Lecture 4: 10:45A.M. to 12:15 PM
Smart Grid Information Management
Smart Metering, Monitoring &
Measurement
Sensors, Phasor measurement unit
Quality of Information
Information Management
Data Modelling & Data Analytics
Integration & Optimization
Cloud computing
Current state of research and future
research directions
Tutorial 2. 2:00 to 5 PM
Case study & problem solving session
with examples
Research exercise and documentation
Day 3
18th September 2016 , Sunday
Lecture 5 : 9:30 to 10:30 AM
Smart Grid Communication Wired vs. Wireless Technologies including
Wireless Mesh Network, Cellular
Communication, Cognitive Radio, IEEE
802.15, Satellite Communication,
Microwave, Fibre Optics, Power line etc.
Lecture 6: 10:45A.M. to 12:15 PM
Smart Grid Communication Advanced Metering Infrastructure Two-way Communications Network Architectures IP-based Systems Interoperability of communication technologies Dynamics of the communication subsystem Protocol updates Network visualization Heterogeneous communication Current state of research and future research directions
Tutorial 3. 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Day 4 19th September 2016 , Monday
Lecture 7: 9:30 to 10:30 AM
Smart Grid Management Objectives Energy Efficiency & Demand Profile Energy Loss Minimization Demand Profile Shaping Utility, Cost & Price Emissions
Lecture 8: 10:45A.M. to 12:15 PM
Smart Grid Management Approaches Optimization (convex programming, stochastic, PSO, robust programming) Machine Learning Game Theory Auction Current state of research and future research directions
Tutorial 4. 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Day 5 20th September 2016 , Tuesday
Lecture 9 : 9:30 to 10:30 AM
Smart Grid Demand Response(DR) Definition & Applications Potential Benefits Pricing and Energy Consumption Scheduling Smart technologies for DR
Demand challenges Control devices for DR
Lecture 10: 10:45A.M. to 12:15 PM
Smart Grid Demand Response(DR) Classification of DR programs Types of DR programs Monitoring systems (Smart meters, AMI, Energy management/information systems) Controllable Load Models Resource discovery Price forecasting Load prediction and balancing Electric Vehicles Vehicle-to-Grid Systems Demand Side Ancillary Services Current state of research and future research directions
Tutorial 5: 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Module: B Cyber Security, Risk & Trust
Day 6 21st September 2016 , Wednessday
9:30 to 10:30 AM
Examination on Module A
Lecture 11: 10:45A.M. to 11:45 AM
Smart Grid Prosumer Community Groups Prosumer Community Framework Community Formation Community Growth Community Management Sustainable community participation
Lecture 12: 12 to 1 P.M.
Smart Grid Prosumer Community Groups Identifying and attracting more dynamic prosumers to the community Motivating new Prosumer to join the community Keeping sustainable growth in Prosumer base Understanding and managing negative or selfish behaviours in a community Current state of research and future research directions
Tutorial 6. 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Day 7 22nd September 2016 , Thrusday
Lecture 13 : 9:30 to 10:30 AM
Cyber Security Challenges in Smart Grid Security System Model Cyber-security requirements Attack model Attack entry points Attack types Generation control & security Transmission control & security Distribution control & security
Lecture 14: 10:45A.M. to 12:15 PM
Cyber Security Challenges in Smart Grid Malicious network attacks and anomalies Cyber consequences due to attack Physical consequences due to attack Countermeasures Secure communication architecture Defence against attacks Defense mechanisms Privacy challenges Current state of research and future research directions
Tutorial 7. 2:00 to 5 PM
Case study & problem solving session with examples
Research exercise and documentation
Day 8 23rd September 2016, Friday
Lecture 15 : 9:30 to 10:30 AM
Smart Grid Protection System Failure prediction & prevention Failure identification, diagnosis & recovery Failure localization
Lecture 16: 10:45A.M. to 12:15 PM
Self-healing grid Data recovery from Smart Meters Failure processing methodology
Tutorial 8. 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Day 9 24th September 2016 , Saturday
Lecture 17 : 9:30 to 10:30 AM
Privacy Challenges in Smart Grid Overview of Privacy
Privacy Challenges
Smart Meter Data Privacy
Privacy friendly aggregation
Privacy preserving smart metering
Protocols & Algorithms for Privacy
Lecture 18: 10:45A.M. to 12:15 PM
Data size and temporal granularities Diversity of data sources Data aggregation and transformation Data access
Tutorial 9. 2:00 to 5 PM
Case study & problem solving session with examples Research exercise and documentation
Day 10 25th September 2016 , Sunday
Lecture 19 : 9:30 to 10:30 AM
RISK & TRUST ASSESSMENT AND
MANAGEMENT
Lecture 20: 10:45A.M. to 12:15 PM
Risk mitigation
Tutorial 10. 2:00 to 3:00 PM
Case study & problem solving session with examples Research exercise and documentation
3:00 PM to 5:00PM
Examination on Module B for the Participants and Certification
Teaching Faculty Dr. Vidyasagar Potdar Dr. Vidyasagar Potdar is a Senior Research Fellow at Curtin University, Australia. His key areas of
research include Smart Grids, Cyber Physical Systems and Information Security.
He has published more than 125 scientific research publications in journals and conferences. His
research has been widely cited, so far he has 1345 citations and his h-index is 19 and i10 index is 41.
He has attracted more than one million dollars in research funding in the areas of smart grids and
sustainable development.
He regularly reviews articles for top international journals including IEEE Transactions on Industrial
Electronics, IEEE Transactions on Information Security and Forensics, IEEE Transactions on Industrial
Informatics, Journal of Systems and Software. He is also a guest editor for IEEE Transactions on
Industrial Electronics and IEEE Transactions on Industrial Informatics.
He has organized more than 25 international workshops at IEEE and ACM conferences worldwide and
was the General Chair for CEAS 2011, CUBE 2012 & CUBE 2013. He has more than 10 years of full
time research experience and in this period he was involved in the management of a Multi-Disciplinary
Research Institute at Curtin University, where he took the responsibility of research commercialization,
research mentoring, business development and research student recruitment.
Who can attend?
Executives, engineers and researchers from, service and government organizations
including R&D laboratories and Power Corporations.
Students at all levels (MSc/M.Tech/PhD) or Faculty from reputed academic institutions
and technical institutions.
Registration Fees
Participants from abroad: US $500
Industry/ Research Organizations:
Any of two modules: Rs. 3000/- All modules: Rs. 5000/-
Academic Institutions:
All modules:
Course fee for non students: Rs. 3000/-
Course fee for students: Rs. 2000/-
The above fees include all instructional materials, computer use for tutorials and
assignments, laboratory equipment usage charges. The individual course participants will have
to borne the charges for their food, transport and accommodation separately. The external
participants will be provided accommodation on payment basis. Course Coordinators
Dr. Champa Nandi, Assistant Professor
Principal Coordinator
Department of Electrical Engineering, Tripura University (A Central University)
Tripura
Tel: +91 3812379244 (O),
+91 946502334
Email: [email protected]
SMART GRID: SECURE AND SUSTAINABLE ENERGY
Overview
Electricity costs are predicted to skyrocket in the coming years and it’s expected to double over the next 5 years due
to challenges in resources development and climate change, and this is a worldwide issue.
Smart Grid achieves bidirectional energy and information flow between the energy user and the utility grid,
allowing energy users to generate energy and share with the utility grid or with other energy consumers.
“Prosumer” is the energy user who consumes as well as generates energy and they form a “Prosumer Community
Smart Grid”. The key objective of a Prosumer community smart grid is to be self-sufficient and sustainable and to
share the excess energy amongst the community first and then auction the rest to the utility grid.
Modules Module A : Smart Grid
Module B : Cyber Security
16th September – 20th September
2016
21st September – 25th September
2016
Number of participants for the course will be limited to fifty.
You Should • Executives, engineers and researchers from, service and government
organizations including R&D laboratories and Power Corporations
Attend If… Organizations including R&D laboratories.
• Students at all levels (MSc/M.Tech/PhD) or Faculty from reputed academic
institutions and technical institutions.
Academic institutions and technical institutions.
Fees The participation fees for taking the course is as follows:
Participants from abroad : US $500
Non-students (i.e. academic, industry participants etc.): Rs. 3000/-.
Industry/ Research Organizations:
Any of two modules : Rs. 3000/- , All modules : Rs. 5000/-
Students: Rs. 2000/-
The above fee include all instructional materials, computer use for tutorials and
assignments,
Laboratory equipment usage charges, 24 hr free internet facility. The participants will be
provided
with accommodation on payment basis. The individual course participants will have to
borne the
Charges for their food transport separately.
The Faculty
Course Co-ordinator
..........................................................................
http://www.gian.iitkgp.ac.in/GREGN/index
Dr. Champa Nandi, Assistant Professor
Department of Electrical Engineering,
Tripura University
(A Central University)
Tripura
Tel: +91 3812379244 (O),
+91 946502334
Email: [email protected]
Dr. Vidyasagar Potdar is a
Senior Research Fellow at Curtin
University, Australia. His key
areas of research include Smart
Grids, Cyber Physical Systems
and Information Security. He has
attracted more than one million
dollars in research funding in the
areas of smart grids and
sustainable development.
REGISTRATION CUM ACCOMODATION REQUEST FORM
(To reach electronically by 1st
September, 2016 and hard copy by 5th
September, 2016)
SMART GRID: SECURE AND SUSTAINABLE ENERGY
16th
September 2016 to 25th
September 2016
Department of EE, Tripura University, Suryamaninagar 799022 Name (Block Letters):………………………………………………….................. M/F:…………….
Designation/Professional Title:
….……………………………………………………………………………
Organization:………………………………………………………………………
Address:……………………………………………………………………………………………………
………………………………
……………………………………………………………...……………………………………………
…………………………………… ……………………………………………………………
Tel.: ……………………………….. Mobile: ………………………………………
Email: ………………………………………………………………………………
Application Id (Generate during One time registration at GIAN portal of IIT Kgp):
………………………………………………………………………………………
Accomodation Required @ Rs. 1200.00/day (Yes/No) : …………………………
Duration (in dd/mm/yy): ...........................................
The registration fee of Rs. ……………………………………………………has been paid via Demand Draft No…………………………………………..in favour of “Registrar, Tripura University” payable at SBI, T.U. Campus branch. Demand Draft has been enclosed herewith.
Date: Signature
Registration Process Step 1: One time Registration
Registration for GIAN courses is not free because of constraint in the maximum number of participants
allowed to register for a course. In order to register for any course, candidate will have to first get them
registered to GIAN Portal of IIT Kharagpur using the following steps: 1. Create login and password at http://www.gian.iitkgp.ac.in/GREGN/index 2. Login and complete the registration form.
3. Select courses 4. Confirm your application and payment information.
5. Pay Rs. 500/- (non-refundable) through online payment gateway. 6. Download and print “pdf file” of your enrolment application form for your personal records and
for further communications. Step 2: Institute Registration 1. Institute registration process is an offline process. Interested candidates are requested to download
the Registration Form. 2. Course Fee: Participants from abroad: US $500
Industry/ Research Organizations:
Any of two modules: Rs. 3000/- All modules : Rs. 5000/-
Academic Institutions:
All modules:
Course fee for non students: Rs. 3000/-
Course fee for students: Rs. 2000/-
3. The Registration fee has to be paid via Demand Draft, in favour of “Registrar, Tripura
University” payable at SBI, Tripura University branch.
4. Scan copy of the filled in “Registration Form” along with scan copy of “Demand Draft” and Application form generated in Step 1 must be sent via email to the Programme Coordinator on or
before 1st
September 2016. Hard copy of the above- mentioned documents must reach to the
Programme Coordinator on or before 5th
September 2016.