The Power Systems Computation Conference (PSCC) has become one of the most outstanding events in the area. With a change of pace from meeting every 3 years to every 2, PSCC provides a truly international forum for the regular exchange of knowledge and experience on the latest developments in this area.
PSCC addresses theoretical developments and computational aspects with respect to power system applications from micro-grids to mega-grids. There is an emphasis on modelling and simulation for understanding a system of components, plant or actors, the interactions between them and their collective behaviour, and methods to inform decision-making in power systems. Contributions might comment on the analytical techniques, modelling challenges and complex software engineering issues, or what the analyses say in respect of today’s and the future’s power system challenges. Thus, papers from utility and manufacturing industry engineers are just as welcome as those from academic researchers.
Assessment of system issues in the presence of uncertainty or unbundling
Power system planning and operation
Asset management
Massive integration of renewable energy resources
Distributed storage systems
Power system economics, energy markets and regulation
Power system reliability and security
Uncertainty and risk management methods
Modelling and analysis of power system performance and control
Blackout prevention, system resilience and restoration
Control centre technologies and advanced operator tools
Wide-area monitoring and control
Power system dynamics
Power system protection
Power systems as part of multi-energy systems
Power systems and electro-mobility
Distribution system monitoring, operation and control
Aggregation of distributed energy resources
Flexible demand
Power electronics and HVDC as part of a power system
Electro-magnetic transients on a system
Power quality
Integrated modelling and operation of information and communication technologies (ICT) in power systems
Cyber security in power systems operation and control
ICT-driven intelligent and autonomous controls
Modelling of cyber-physical energy and communication systems
Data analysis and computation applied to power systems
Data-driven modelling techniques
Machine learning, statistics and computational intelligence
Management and utilization of big data
Mathematical and computational issues in modelling and simulation
Forecasting methods
Condition monitoring and diagnostics
THE TECHNIQUES CONSIDERED INCLUDE:
Modelling and simulation
Optimization and mathematical programming
Uncertainty & risk management methods
Control theory
Communication technology
Signal processing
Computational intelligence including evolutionary techniques, Artificial Neural Networks etc.
Machine learning and statistics
Semantic web technologies
06月11日
2018
06月15日
2018
摘要截稿日期
初稿截稿日期
初稿录用通知日期
终稿截稿日期
注册截止日期
2016年06月20日 意大利 Genoa, Italy
2016电力系统计算大会2014年08月18日 波兰
2014电力系统计算大会
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