Multi-agent systems' asset for smart grid applications

Multi-agent systems are a subject of continuously increasing interest in applied technical sciences. Smart grids are one evolving field of application. Numerous smart grid projects with various interpretations of multi-agent systems as new control concept arose in the last decade. Although several theoretical definitions of the term ‘agent’ exist, there is a lack of practical understanding that might be improved by clearly distinguishing the agent technologies from other state-of-the-art control technologies. In this paper we clarify the differences between controllers, optimizers, learning systems, and agents. Further, we review most recent smart grid projects, and contrast their interpretations with our understanding of agents and multi-agent systems. We point out that multi-agent systems applied in the smart grid can add value when they are understood as fully distributed networks of control entities embedded in dynamic grid environments; able to operate in a cooperative manner and to automatically (re-)configure themselves.

[1]  Horst F. Wedde,et al.  Distributed Learning Strategies for Collaborative Agents in Adaptive Decentralized Power Systems , 2008, 15th Annual IEEE International Conference and Workshop on the Engineering of Computer Based Systems (ecbs 2008).

[2]  Hans-Jürgen Appelrath,et al.  Towards Reactive Scheduling for Large-Scale Virtual Power Plants , 2009, MATES.

[3]  Arthur C. Graesser,et al.  Is it an Agent, or Just a Program?: A Taxonomy for Autonomous Agents , 1996, ATAL.

[4]  Thillainathan Logenthiran,et al.  Multi-agent system for energy resource scheduling of integrated microgrids in a distributed system , 2011 .

[5]  Michael Wooldridge,et al.  Introduction to multiagent systems , 2001 .

[6]  Danny Pudjianto,et al.  Virtual power plant and system integration of distributed energy resources , 2007 .

[7]  M. Pipattanasomporn,et al.  Multi-agent systems in a distributed smart grid: Design and implementation , 2009, 2009 IEEE/PES Power Systems Conference and Exposition.

[8]  A.L. Dimeas,et al.  Operation of a multiagent system for microgrid control , 2005, IEEE Transactions on Power Systems.

[9]  Fulli Gianluca,et al.  Smart Grid Projects in Europe - Lessons Learned and Current Developments , 2011 .

[10]  Christof Wittwer,et al.  Simulating the optimized participation of distributed controllable generators at the spot market for electricity considering prediction errors , 2012, 2012 3rd IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe).

[11]  Bart Roossien,et al.  Field test upscaling of multi-agent coordination in the electricity grid , 2009 .

[12]  Alexander Fay,et al.  A market-based multi-agent-system for decentralized power and grid control , 2011, ETFA2011.

[13]  Michael E. Bratman,et al.  What is intention , 1987 .

[14]  Horst F. Wedde,et al.  Real-time multi-agent support for decentralized management of electric power , 2006, 18th Euromicro Conference on Real-Time Systems (ECRTS'06).

[15]  Cuong P. Nguyen,et al.  Agent Based Restoration With Distributed Energy Storage Support in Smart Grids , 2012, IEEE Transactions on Smart Grid.

[16]  Nicholas R. Jennings,et al.  Agent Theories, Architectures, and Languages: A Survey , 1995, ECAI Workshop on Agent Theories, Architectures, and Languages.

[17]  S.D.J. McArthur,et al.  Multi-Agent Systems for Power Engineering Applications—Part I: Concepts, Approaches, and Technical Challenges , 2007, IEEE Transactions on Power Systems.

[18]  I. G. Kamphuis,et al.  Architectural design and first results evaluation of the PowerMatching City field test , 2011 .

[19]  Michael N. Huhns,et al.  Agents as Web Services , 2002, IEEE Internet Comput..

[20]  Peter Norvig,et al.  Artificial Intelligence: A Modern Approach , 1995 .

[21]  Michael Wooldridge,et al.  Agent technology: foundations, applications, and markets , 1998 .

[22]  Ramachandra Kota,et al.  An Agent-Based Approach to Virtual Power Plants of Wind Power Generators and Electric Vehicles , 2013, IEEE Transactions on Smart Grid.

[23]  Olivier Richardot Réglage Coordonné de Tension dans les Réseaux de Distribution à l'aide de la Production Décentralisée , 2006 .

[24]  Il-Yop Chung,et al.  Distributed Intelligent Microgrid Control Using Multi-Agent Systems , 2013 .

[25]  Nicholas R. Jennings,et al.  Agent-based control systems , 2003 .

[26]  Venizelos Efthymiou,et al.  STRATEGIC RESEARCH AGENDA FOR EUROPE’S ELECTRICITY NETWORKS OF THE FUTURE: European Technology Platform SmartGrids , 2007 .

[27]  Jon Andreu,et al.  General aspects, hierarchical controls and droop methods in microgrids: A review , 2013 .

[28]  Pierluigi Mancarella,et al.  Distributed multi-generation: A comprehensive view , 2009 .

[29]  Vincent W. S. Wong,et al.  Advanced Demand Side Management for the Future Smart Grid Using Mechanism Design , 2012, IEEE Transactions on Smart Grid.

[30]  H. Van Dyke Parunak,et al.  The RAPPID Project: Symbiosis between Industrial Requirements and MAS Research , 1999, Autonomous Agents and Multi-Agent Systems.

[31]  Thillainathan Logenthiran,et al.  Multiagent System for Real-Time Operation of a Microgrid in Real-Time Digital Simulator , 2012, IEEE Transactions on Smart Grid.

[32]  Kenneth Steiglitz,et al.  Combinatorial Optimization: Algorithms and Complexity , 1981 .

[33]  Nicholas R. Jennings,et al.  Brain Meets Brawn: Why Grid and Agents Need Each Other , 2004, Towards the Learning Grid.

[34]  Mieczyslaw Metzger,et al.  A Survey on Applications of Agent Technology in Industrial Process Control , 2011, IEEE Transactions on Industrial Informatics.

[35]  Pascal Benoit,et al.  What the term agent stands for in the Smart Grid definition of agents and multi-agent systems from an engineer's perspective , 2012, 2012 Federated Conference on Computer Science and Information Systems (FedCSIS).

[36]  Rogelio Lozano,et al.  Adaptive Control: Algorithms, Analysis and Applications , 2011 .

[37]  K.T.M.U. Hemapala,et al.  A review on multi-agent systems in microgrid applications , 2011, ISGT2011-India.

[38]  A.L. Dimeas,et al.  Agent based control of Virtual Power Plants , 2007, 2007 International Conference on Intelligent Systems Applications to Power Systems.