2013 International Workshop on Smart Grids and Electrical Engineering(SGEE 2013) will be held in Beijing, China during March 14–15, 2013. The aim objective of SGEE 2013 is to provide a platform for researchers, engineers, academicians as well as industrial professionals from all over the world to present their research results and development activities in Smart Grids and Electrical Engineering. This conference provides opportunities for the delegates to exchange new ideas and application experiences face to face, to establish business or research relations and to find global partners for future collaboration.<br>SGEE 2013 ONLY accepts unpublished research papers. Submitted conference papers will be reviewed by technical committees of the Conference. All accepted papers will be published in the conference proceeding by Atlantis Press and be online available in full text via the publication platform, then be submited for indexing to Thomson ISI ( ISTP, CPCI, Web of Science), Scopus (by Elsevier) and EI/Compendex. Some excellent papers(after extension) will be recommended to International Journals:<br>• Future Internet (ISSN 1999–5903) , indexed by EI<br>• Remote Sensing (ISSN 2072–4292) , indexed by EI, Scopus and SCI<br>• Sensors (ISSN 1424–8220) , indexed by Scopus, SCI, Impact Factor: 2.060 (2011)<br>Important Date<br>Paper Submission (Full Paper) Before December 31, 2012<br>Notification of Acceptance On January 10, 2013<br>Final Paper Submission Before January 20, 2013<br>Conference Dates March 14–15, 2013<br>SUBMISSION METHODS:<br>Email: sgee2013@163.com( .pdf and .doc)<br>Topics:<br>Authors are invited to submit original unpublished manuscripts that demonstrate recent advances in the following areas of interest, but are not limited to:<br>AREA 1: SMART GRIDS<br>Real–Time Systems<br>Architectures for Smart Grids<br>Smart Grids Modeling<br>Smart Grid Specific Protocols<br>Scalable Infrastructures for Smart Grids<br>Standards for Smart Grids<br>Load Balancing in Smart Grids<br>Smart Grid Security and Reliability<br>Smart Grids and Renewable Technologies<br>Sensors for Smart Grids<br>Fault Tolerance and Disaster Recovery in Smart Grids<br>Integration of Smart Appliances<br>Smart Cities<br>Smart Homes (Domotics)<br>AREA 2: ENERGY–AWARE SYSTEMS AND TECHNOLOGIES<br>Optimization Techniques for Efficient Energy Consumption<br>Economic Models of Energy Efficiency<br>Greener Systems Planning and Design<br>Energy–Efficient Transmission Technologies<br>Energy Monitoring<br>Virtualization for Reducing Power Consumption<br>Scheduling and Switching Power Supplies<br>Performance Evaluation of Green Computing Systems<br>Energy Profiling and Measurement<br>Renewable Energy Resources<br>Embedded Sensor Networks<br>Geographic Information Systems (GIS)<br>Energy Management Systems (EMS)<br>AREA 3: SUSTAINABLE COMPUTING AND COMMUNICATIONS<br>Green Data Centers<br>Algorithms for Reduced Power, Energy and Heat<br>Qos and Green Computing<br>Green Software Engineering Methodologies and Tools<br>Virtualization Impact for Green Computing<br>Pervasive Computing for Energy Efficiency<br>Green Architectures for Grids, Clouds and Clusters<br>Green Computing Models, Methodologies and Paradigms<br>Green Communications Architectures and Frameworks<br>Sustainable Wireless Communication<br>Energy Efficient Network Hardware<br>Energy–Efficient Communication Protocols<br>Teleworking and Remote Collaboration<br>Education on Green Computing and Communications<br>Case Studies on Green Computing and Communications<br>AREA 4: SMART CITIES<br>User–Centred and Participatory Design of Services and Systems for Smart Cities<br>Innovation Labs, Experimental Test–Beds and Simulation Environments<br>Internet–Enabled Infrastructures and Services<br>Mechanisms for Motivating Behaviour Change<br>Service Innovation and Design to Support Smart Cities<br>Assessing Value and Impact of Smart Cities<br>Cloud Computing and Service Models for Smart City Solutions<br>e–Work and e–Business Applications<br>Planning and Design Challenges for Smart Cities<br>Mechanisms to Measure Quality of Life in Smart Cities<br>Security and Privacy Implications<br>Service Delivery and Logistics Planning for Smart Cities<br>Standardisation and Open Interfaces of Smart City Systems, Platforms and Applications<br>Intelligent Transport Systems and Traffic Management<br>Smart Sensor–Based Networks and Applications<br>IS Architecture Designs and Platforms for Smart Cities<br>Case Studies and Innovative Applications for Smart(er) Cities<br>AREA 5: Electrical Engineering<br>Biotechnology<br>Power Engineering<br>Telecommunication<br>Control engineering<br>Signal processing<br>Diagnosis & Sensing Systems<br>Micro Machines<br>MEMS – Related Technology<br>Energy and Environment<br>Rolling Stocks<br>Safety and Security<br>Condition Monitoring<br>Power Distribution in Railway<br>Operation and Fare Collecting Technology<br>Electrical Materials and Process<br>Semiconductor Technology<br>High Voltage Engineering and Insulation Technology<br>Electronic Materials<br>Education and Training for Electrical Engineers<br>Magnetics<br>Electrical Discharges<br>Electromagnetic Theory<br>Electromagnetic Environment<br>Instrument and Measurement<br>Light Applications and Visual Science<br>Pulsed Power<br>Dielectric Materials<br>Metals and Ceramics<br>Power System & Energy<br>Electrical Machines, Power Electronics & Industry Applications<br>Electric Railway<br>Electric Vehicl<br>Mechatronics and Automation<br>Industrial Robotics and Automation<br>Intelligent control, neuron–control, fuzzy control<br>Industrial Automation and Process Control<br>Distributed Control System<br>Embedded System<br>Control system modeling and simulation techniques<br>Enterprise Informationization and information processing technology<br>Virtual Instrumentation<br>Sensors, multi–sensor data fusion algorithms<br>Advanced measurement and Machine Vision system<br>Transmission and control of Fluid<br>Dynamics, Vibration and Control<br>
Abbrevation
SGEE
City
Beijing
Country
China
Deadline Paper
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