1) The presentation discusses the smart grid, including its motivation due to issues with the current electric grid like fossil fuel scarcity and reliability concerns. It outlines the history and definitions of the smart grid.
2) Key requirements and characteristics of the smart grid are described, such as advanced monitoring and communication infrastructure to integrate renewable energy and provide two-way energy and information flow.
3) A case study of a smart grid deployment in Boulder, Colorado is summarized, including installing smart meters and fiber optic lines to provide customers with energy usage monitoring and more pricing options. Results showed potential cost savings and standardization needs.
seminar on SMART GRID is the best seminar of my branch
technology based on smart to integration of information technology on traditional power system
It may be best to understood Smart Grid as the overlaying of a unified communications and control system on the existing power delivery infrastructure to provide the right information to the right entity (e.g. end-use devices, transmission and distribution, system controls, customers, etc.) at the right time to take the right action. It is a system that optimizes power supply and delivery, minimizes losses, is self-healing, and enables next-generation energy efficiency and demand response applications.
To have connections between suppliers, distributors and consumers.
In definition, Smart Grid is a form of electricity network utilizing digital technology.
Its delivers electricity from suppliers to consumers using two-way digital communications to control appliances at consumers' homes; which in deed will saving the energy, reduce costs and increase reliability.
A key feature of the smart grid is automation technology that lets the utility adjust and control each individual device or millions of devices from a central location.
A Smart Grid must functions as followings
1. Be able to heal itself
Smart Grid is designed with a control system that self-analyzes its performance using intelligent autonomous reinforcement learning controllers that are able to learn new strategies and successfully implementing such strategies to govern the behavior of the grid in the face of an ever changing environment such as equipment failures.
2. Motivate consumers to actively participate in operations of the grid
If consumers have freedom to control own usage of energy, they will be motivated to participate and be part of the system. They can monitor their usage and manipulate by the assistance of “smart appliances” and “intelligent equipment” in homes or businesses. Advanced communications capabilities equip customers with tools to exploit real-time electricity pricing, incentive-based load reduction signals, or emergency load reduction signals.
3. Resist attack
Most important issues of resist attack is the smart monitoring of power grids, which is the basis of control and management of smart grids to avoid or mitigate the system-wide disruptions like blackouts.
4. Accommodate all energy generation and storage options
Smart Grid integrates two power generation source; traditional power generation likes fossil fuel powered power plant with renewable power generations either generates from residential, commercial, and industrial customers that will improves reliability and power quality, reduces electricity costs, and offers more customer choice.
5. High quality power
Outages and power quality issues is common for any country especially for major industrial-based countries. Smart Grid provides more stable power provided that will reduce downtime and prevent such high losses because of
Smart Grid: Definition
• Need of smart grid
• Smart grid functions
• How Smart Grid Works
• Smart Grid: Benefits
• Smart grid components and its Benefits
• Issues and Challenges
• Opportunities in future
• Smart Grid Projects in India and Gujarat
• Question-Answer
• References
By using smart grid technology energy can be utilized to the maximum and would not be wasted. It refers to the modernized version of the earlier traditional method of energy supply. Allows consumers to interact with the grid.
seminar on SMART GRID is the best seminar of my branch
technology based on smart to integration of information technology on traditional power system
It may be best to understood Smart Grid as the overlaying of a unified communications and control system on the existing power delivery infrastructure to provide the right information to the right entity (e.g. end-use devices, transmission and distribution, system controls, customers, etc.) at the right time to take the right action. It is a system that optimizes power supply and delivery, minimizes losses, is self-healing, and enables next-generation energy efficiency and demand response applications.
To have connections between suppliers, distributors and consumers.
In definition, Smart Grid is a form of electricity network utilizing digital technology.
Its delivers electricity from suppliers to consumers using two-way digital communications to control appliances at consumers' homes; which in deed will saving the energy, reduce costs and increase reliability.
A key feature of the smart grid is automation technology that lets the utility adjust and control each individual device or millions of devices from a central location.
A Smart Grid must functions as followings
1. Be able to heal itself
Smart Grid is designed with a control system that self-analyzes its performance using intelligent autonomous reinforcement learning controllers that are able to learn new strategies and successfully implementing such strategies to govern the behavior of the grid in the face of an ever changing environment such as equipment failures.
2. Motivate consumers to actively participate in operations of the grid
If consumers have freedom to control own usage of energy, they will be motivated to participate and be part of the system. They can monitor their usage and manipulate by the assistance of “smart appliances” and “intelligent equipment” in homes or businesses. Advanced communications capabilities equip customers with tools to exploit real-time electricity pricing, incentive-based load reduction signals, or emergency load reduction signals.
3. Resist attack
Most important issues of resist attack is the smart monitoring of power grids, which is the basis of control and management of smart grids to avoid or mitigate the system-wide disruptions like blackouts.
4. Accommodate all energy generation and storage options
Smart Grid integrates two power generation source; traditional power generation likes fossil fuel powered power plant with renewable power generations either generates from residential, commercial, and industrial customers that will improves reliability and power quality, reduces electricity costs, and offers more customer choice.
5. High quality power
Outages and power quality issues is common for any country especially for major industrial-based countries. Smart Grid provides more stable power provided that will reduce downtime and prevent such high losses because of
Smart Grid: Definition
• Need of smart grid
• Smart grid functions
• How Smart Grid Works
• Smart Grid: Benefits
• Smart grid components and its Benefits
• Issues and Challenges
• Opportunities in future
• Smart Grid Projects in India and Gujarat
• Question-Answer
• References
By using smart grid technology energy can be utilized to the maximum and would not be wasted. It refers to the modernized version of the earlier traditional method of energy supply. Allows consumers to interact with the grid.
This presentation is about Smart Grid, its benefits over traditional grid system, technologies and components used in smart grid, characteristics of smart grid, and smart grid system in India.
(a).What is smart grid technology?
(b).Role and necessity of smart grid technology
(c).Benefits and application of grid
(d).Various challenge of grid
(e).Best possible location
this slide shows what is smart grid ,its comparison between the electromechanical grids . smart meters and devises for the smart grid . benefit of smart grid . and a conclution
MicroGrid and Energy Storage System COMPLETE DETAILS NEW PPT Abin Baby
A microgrid is a localized grouping of electricity generation, energy storage, and loads that normally operates connected to a traditional centralized grid (macrogrid). This single point of common coupling with the macrogrid can be disconnected. The microgrid can then function autonomously. Generation and loads in a microgrid are usually interconnected at low voltage. From the point of view of the grid operator, a connected microgrid can be controlled as if it were one entity.
Microgrid generation resources can include fuel cells, wind, solar, or other energy sources. The multiple dispersed generation sources and ability to isolate the microgrid from a larger network would provide highly reliable electric power. Produced heat from generation sources such as micro turbines could be used for local process heating or space heating, allowing flexible trade off between the needs for heat and electric power.
A power point presentation on smart grid : transforming the traditional grid including difference with traditonal grid ,components , advantage , disadvantages.
An advanced meters which performs smart functions to simplify the billing procedure and to modernize the grids which can be very helpful to the electricity providers and consumers in future. These meters simplifies the tampering and other non technical problems and also offers accurate electricity bills to consumers which avoids paying of high electricity bills.
*ELECTRIC POWER AND POWER TRANSMISSION.
*PRESENT ONE-WAY ELECTRIC TRANSMISSION SYSTEM.
*A WAY TO DO MORE WITH LESS .
*MODERN UPDATED AND SMART TRANSMISSION SYSTEM.
This presentation is about Smart Grid, its benefits over traditional grid system, technologies and components used in smart grid, characteristics of smart grid, and smart grid system in India.
(a).What is smart grid technology?
(b).Role and necessity of smart grid technology
(c).Benefits and application of grid
(d).Various challenge of grid
(e).Best possible location
this slide shows what is smart grid ,its comparison between the electromechanical grids . smart meters and devises for the smart grid . benefit of smart grid . and a conclution
MicroGrid and Energy Storage System COMPLETE DETAILS NEW PPT Abin Baby
A microgrid is a localized grouping of electricity generation, energy storage, and loads that normally operates connected to a traditional centralized grid (macrogrid). This single point of common coupling with the macrogrid can be disconnected. The microgrid can then function autonomously. Generation and loads in a microgrid are usually interconnected at low voltage. From the point of view of the grid operator, a connected microgrid can be controlled as if it were one entity.
Microgrid generation resources can include fuel cells, wind, solar, or other energy sources. The multiple dispersed generation sources and ability to isolate the microgrid from a larger network would provide highly reliable electric power. Produced heat from generation sources such as micro turbines could be used for local process heating or space heating, allowing flexible trade off between the needs for heat and electric power.
A power point presentation on smart grid : transforming the traditional grid including difference with traditonal grid ,components , advantage , disadvantages.
An advanced meters which performs smart functions to simplify the billing procedure and to modernize the grids which can be very helpful to the electricity providers and consumers in future. These meters simplifies the tampering and other non technical problems and also offers accurate electricity bills to consumers which avoids paying of high electricity bills.
*ELECTRIC POWER AND POWER TRANSMISSION.
*PRESENT ONE-WAY ELECTRIC TRANSMISSION SYSTEM.
*A WAY TO DO MORE WITH LESS .
*MODERN UPDATED AND SMART TRANSMISSION SYSTEM.
Protection of transmission lines (distance)Rohini Haridas
This gives idea about necessity of protection of transmission line and protection based on time grading as well as on current grading. Also includes three step distance protection of transmission line
DESIGN OF CONTROL STRATEGIES FOR THE LOAD FREQUENCY CONTROL (LFC) IN MULTI AR...IAEME Publication
This paper features the Differential Evolution (DE) by controller parameters tuning algorithm
and also an application of a multi source power system to a Load Frequency Control (LFC) by
having several sources of power generation techniques. At first, a single area multi-source power
system using integral controllers for every unit is taken and DE procedure is implemented to attain
the controller parameters. Several mutation procedures of DE are estimated and the control
parameters of DE for best obtained procedure are tuned by implementing numerous runs of
algorithm for every change in parameter. Multi-area multi-source power system is also discussed
and a HDVC link is also taken in accordance with the current AC tie line for the internal
connection between the areas. The two variables of Integrals which are to be enhanced using tuned
DE algorithm are proportional integral and proportional integral derivative.
Clean energy microgrids - Hype or Reality?Daniel Schwab
Clean Energy Microgrids - presentation - Energy Management in Buildings and Cities - Trends, Opportunities & Barriers April 13th, Porter School of Environmental Studies, Tel Aviv University
Universities as “Smart Cities” in a Globally Connected World - How Will They ...Larry Smarr
09.08.20
Invited Talk
Monash University ITS Strategic Planning Session
RE-INVENT to RE-POSITION – TRANSFORMED BY ICT
Title: Universities as “Smart Cities” in a Globally Connected World - How Will They be Transformed?
Melbourne, Australia
The report gives the complete in view of smart grid technology. This document is about the smart grids and its infrastructure. It describes the smart grid’s vision and the framework. It also briefs about the smart grids initiatives and platforms. It presents the current standards and how well are they implemented in the real system.
On Going research on Problems Faced In smart grid in general. Yet Work is in progress Just a light notes on General issues in smart grid, Technically work is to be on target in smart grid.
SECO looks at how to manage the energy demands of the many elements when you have many sources, including the grid, but also local wind turbines, solar panels, geo-thermal as well as a local generator and possible energy storage. SECO optimises this many-to-many problem to ensure demand is met and that the cost of energy is minimised.
"CHALLENGES AND ISSUES OF SMART GRID IMPLEMENTATION: THE CASE OF GHANA", A research project conducted by Calebina Fosuaa, Alex Pobi and Derrick Mifetu from University of Energy and Natural Resources, Sunyani, Ghana
Introduction
Indian energy scenerio: 2015
Major incidents and motivation for micro grid
What is micro grid?
Basic architecture of micro grid
Classification of smart grid
Micro Grid operation modes
Importance and benefits
Challenges in micro grids
Smart grid priorities in India
Existing hybrid grid ventures in India and in world
Relevance of Smart Grid in India
Smart grid mission and vision for India
Conclusion
Presentation from the EPRI-Sandia Symposium on Secure and Resilient Microgrids: Power Systems Engineering Research and Development, presented by Dan Ton, DOE OE, Baltimore, MD, August 29-31, 2016.
Data Analytics for Improving Energy Efficiency in Short-Sea ShippingMohamed Abuella
Descriptive, Predictive, and Prescriptive Analytics for Improving Energy Efficiency in Short-Sea Shipping. This project presents the major findings of the data analytics for improving the fuel consumption of a passenger ship in Archipelago of Gothenburg, Sweden.
Wind energy analysis for some locations in libyaMohamed Abuella
Modeling, Planning, and Analysis for Wind Energy in Libya.
17 Locations have been chosen for Modeling, Planning, and Analysis of Wind Energy for Different Locations in Libya, ...they are: Tripoli, Misurata, Tarhunah, Ghanima, Msallata, Zuwara, Gharyan, Sirte, Benghazi, Magrun, Derna, Houn, Gadamis, Sabha, Kufra, Tobruk, Jaghbub
Also, a comparison with Berlin in Germany has been conducted alongside the Libyan locations.
Study of NEPLAN Software for Load Flow and Short Faults Analysis تصميم شبكة ت...Mohamed Abuella
Thesis for: Bachelor of Technology, College of Industrial Technology, Misurata, Libya Advisor: Mohamed Shetwan
تصميم شبكة توزيع كهربائية لمشروع وحدات سكنية باستخدام نيبلان
مشروع تخرج لنيل درجة البكالوريس التقني
كلية التقنية الصناعية
مصراتة، ليبيا
اشراف/ أ. محمد شتوان
Qualifying combined solar power forecasts in ramp events' perspectiveMohamed Abuella
Applying a qualifying metric for solar power forecasts to assess their capability to predict the ramp events, especially by the combined forecasts, then those forecasts can be implemented for: Managing high ramp-rates of PV solar power generation; Optimal energy management of energy storage systems; Voltage regulator settings on feeders with PV distributed generation.
Using statistical and machine learning techniques to forecast the PV solar power, which can be implemented for: • Managing the economic dispatch, unit commitment, and trading of PV solar power generations with other conventional generations; • Using with situational awareness tools to manage the ramp limitation; Optimal energy management of energy storage systems; • Voltage regulator settings on feeders with PV distributed generation.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
2. THE OUTLINE
The scope of this presentation is about:
2
1) Background:
• The motivation of smart grid;
• The history of smart grid.
2) The requirements and
characteristics of smart grid.
3) The results of the Study
Case project.
4) Some barriers of smart
grid.
5) Conclusion
ECE580 Seminar Mohamed Abuella Smart Grid
4. Scarcity of fossil fuel & price
fluctuation;
Concern on Environment;
Notable increase of using
renewable resources.
The Motivation of Smart Grid
ECE580 Seminar Mohamed Abuella Smart Grid
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5. Today’s grid Quality Reliability.
Is Electricity always there 24/7?
The Motivation of Smart Grid
6 of 7 World’s largest
blackouts have happened
since 1999
6 of 7 World’s largest
blackouts have happened
since 1999
Northeast outage 2003
Affected more than 600M2009
ECE580 Seminar Mohamed Abuella Smart Grid
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6. Crucial reform to meet new market orientations.
The Motivation of Smart Grid
ECE580 Seminar Mohamed Abuella Smart Grid
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7. ECE580 Seminar Mohamed Abuella Smart Grid
7
Smart Grid is the grid that integrates advanced sensing technologies,
control methods, and integrated communications into the current
electricity grid.
Background
Definition of Smart Grid
U.S. Department of Energy
(DoE)
More precise system design & operationWith much more information & control
8. • EU: European Technology Platform Smart Grids in
2005;
• USA: DoE dedicated to reform the current grid
from 2002;
• China: Starts a grid comprehensive development
in 2009.
Background
Historical Spots:
The target time to complete
(2030)
ECE580 Seminar Mohamed Abuella Smart Grid
8
12. Seven principal Characteristics:
1.Enables active consumer participation;
2.Accommodates all generation and storage options;
3.Enables new products, services, and markets;
4.Provides power quality for the digital economy;
5.Optimizes asset utilization and operates efficiently;
6. Anticipates and responds to system disturbances;
7.Operates robustly against attack and natural disaster.
The requirements and characteristics
of Smart Grid
ECE580 Seminar Mohamed Abuella Smart Grid
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13. – Interface between the utility/customer
– Real-time electricity pricing.
– Multi-choices and Demand Response (DR)
13
Requirements of Smart Grid
•Advanced measurement Infrastructure (AMI):
ECE580 Seminar Mohamed Abuella Smart Grid
14. •Advance Sensing systems:
Requirements of Smart Grid
• Check health of equipment;
• Detecting faults early.
14
• Distributed weather sensing:
o Improve the predictability of renewable energy;
o Adjust controls to ensure the power supply continuity.
ECE580 Seminar Mohamed Abuella Smart Grid
15. •Advanced communication systems:
Requirements of Smart Grid
•Fully integrated, two-way communication technologies for real-time Data;
•Store information about the user and grid conditions;
•Cyber Security.
ECE580 Seminar Mohamed Abuella Smart Grid
15
16. •Automation of power stations:
SCADA (Supervisory Control and Data Acquisition), On substations.
Automation (control & monitoring) within the substations.
Requirements of Smart Grid
ECE580 Seminar Mohamed Abuella Smart Grid
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17. Located on distribution feeders.
Restore the gird in failures;
Reconfigurations during failures;
Improve the voltage.
Requirements of Smart Grid
•Automation of distribution areas:
ECE580 Seminar Mohamed Abuella Smart Grid
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18. •Energy storage:
•Energy Storage Systems needed with renewable energy sources.
Energy storage and Distributed generations should be integrated in grid
physically and financially (bills).
Requirements of Smart Grid
ECE580 Seminar Mohamed Abuella Smart Grid
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19. •Regulations and standards:
Standard practices and protocols for smart grid are necessary.
Requirements of Smart Grid
ECE580 Seminar Mohamed Abuella Smart Grid
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20. ECE580 Seminar Mohamed Abuella Smart Grid
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Study Case
Scope: City of Boulder, CO. - 45,000 accounts;
Starts in April 2008;
More than 100 miles of fiber installed for Communication;
About 25,000 two-way smart meters installed;
Monitoring 3,200 transformers and 5,200 network elements;
Web portal and in-home devices offered to customers 2009;
New pricing tariffs, offered in 2010.
Smart Grid City:
Project Status
The World’s first smart grid city
2009
21. ECE580 Seminar Mohamed Abuella Smart Grid
21
Monitor and manage
energy use;
More options, choice
and personal control.
Study Case
Smart Grid Web portal:
22. In-Home Energy Management Devices
Air Conditioner
Water Heater
Protected Loads:
- Home Office
- Security System
- Refrigerator
- Microwave
- Well Pump
- Sump Pump
- Select Lighting
Air Conditioner
Plug In Hybrid Vehicles
Pool Pump
Solar PV Integration
GridPointConnect C36
(Embedded Energy Manager)
GridPoint Load Manager
GridPoint Thermostats
Secure Load Panel
AC Meter
Residential
Load Panel
GridPoint
Control Console
GridPoint
Customer Portal
GridPoint
Operations Center
22
High Voltage
Controller
Homebase
Gateway
Programmable
Thermostat
Light
switch
Controller
Outlet
Controller
Study Case
ECE580 Seminar Mohamed Abuella Smart Grid
23. Home Energy Monitor & Programmable Thermostat
Real Time Usage & Cost Information;
Communicates with Smart Meter.
Study Case
ECE580 Seminar Mohamed Abuella Smart Grid
23
24. Results of the Smart Grid Demonstration:
• Provide real world experience;
• Characterize the economics of wide deployment;
• Identify the requirements (especially the standards);
• Identify work force requirements (manpower, skills, training);
• Provide the overall cost and benefits.
Study Case
ECE580 Seminar Mohamed Abuella Smart Grid
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25. Smart Grids Constraints
– Uncertainty of costs and Benefits
– Existing Grid is hard enough;
Will the computerized grid be more efficient?
– The education and welfare of users.
– Grid stability,
Especially with intermittent energy sources.
– Security and Privacy.
ECE580 Seminar Mohamed Abuella Smart Grid
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26. Conclusion
The transformation from the antiquated electric
infrastructure to the modernized smart grid could be
the best option to solve many problems in the current
electric grid.
ECE580 Seminar Mohamed Abuella Smart Grid
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27. References
1. Bruce, J. (2003). THE SMART GRID. Electric Perspectives, 28(6), 37. Retrieved
from Business Source Complete database.
2. Charles, D. (2009). Renewables Test IQ of the Grid. Science, 324(5924), 172.
Retrieved from: MasterFILE Premier database.
3. Forte, V. (2010). Smart Grid at National Grid. doi:10.1109/ISGT.2010.5434729.
4. Jingjing, L., Da, X., & Qian, A. (2009). Research on smart grid in China.
doi:10.1109/TD-ASIA.2009.5356959.
5. Kiesling, L. (2008, September 21). Smart savings. Science in Society. Retrieved
from:http://scienceinsociety.northwestern.edu/print/content/articles/2008/kiesling/
smart-savings?gclid=CL-v4tXW-6ICFd8B5wodDHPlzw
6. McDaniel, P., & McLaughlin, S. (2009). Security and privacy challenges in the
smart grid. IEEE Security & Privacy, 7(3), 75-77. doi:10.1109/MSP.2009.76.
7. Wolfs, P., & Isalm, S. (2009). Potential barriers to smart grid technology in
Australia. Retrieved from: Inspec database.
ECE580 Seminar Mohamed Abuella Smart Grid
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