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Multi-Agent Testbed for Emerging Power Systems

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Presentation on theme: "Multi-Agent Testbed for Emerging Power Systems"— Presentation transcript:

1 Multi-Agent Testbed for Emerging Power Systems
Mark Stanovich, Sanjeev Srivastava, David Cartes, Troy Bevis Center for Advanced Power Systems – Florida State University Features Computational Resources 6 Versalogic “Mamba” boards 6 TS-7800 embedded ARM boards 2 Rockwell PLCs 1 Xilinx ML507 board (FPGA) Communications 2 Ethernet communication networks OPNET real-time simulator Power System Simulation 14 RTDS “racks” Lessons Learned Need for automation Artifacts from one experiment to the next Less error prone Time consuming to manually setup testbed for various configurations “Wiring” for electrical connections (interface to power systems simulator) Benefits of real-time simulation Multiple computational facilities General purpose High and low performance FPGA PLC Data communications simulation Topologies Communication technologies (e.g., wireless, fiber-optic) Appropriate testbeds for studying multi-agent systems are needed. Existing power system simulation does not include facilities needed for studying multi-agent systems. Cyber-physical Computational facilities Data communications Requirements Real-time Ability to run a variety of software Multiple OSs (e.g., Windows, Linux) Languages and tools C/C++, Java, Python Matlab, JADE Sufficient computational power Communications Inter-agent Power system Portability Cost effective Agent Platform Information-Theoretic Characterization of Dynamic Energy Systems Distributed Control in a Shipboard Power System FREEDM Smart Grid Mamba #1 Mamba #2/FPGA RTDS Read n PMU msgs Find Δθi for all Gi Find Δθav and θnew =Δθi - Δθav Send θnew and breaker = ON Power System


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