Michael Starke Section Head, Electrical Systems Integration Contact STARKEMR@ORNL.GOV All Publications A MW scale charging architecture for supporting extreme fast charging of heavy-duty electric vehicles A System of Agents for Supporting Optimization and Control of a Connected Community Agent-Based Distributed Energy Resources for Supporting Intelligence at the Grid Edge Post-extreme-event restoration using linear topological constraints and DER scheduling to enhance distribution system resilience A Remote Development Process and Platform for Power Electronic Systems... A Low Voltage DC Power Electronic Hub to Support Buildings Heat Based Power Augmentation for Modular Pumped Hydro Storage in Smart Buildings Operation Control and Management of Multiple Converters in a Residential Smart Grid A Real-time Agent Based Optimization and Control Approach for Residential Building Heating Ventilation and Air Conditioning Systems Architecture of a Residential Solid State Power Substation (SSPS) Node A Communication Testbed for Testing Power Electronic Agent Systems Secondary Use-Plug-and-Play Energy Storage System Composed of Multiple Energy Storage Technologies Data Analysis Approach for Large Data Volumes in a Connected Community Network Reconfiguration and Distributed Energy Resource Scheduling for Improved Distribution System Resilience A Comprehensive Scheduling Framework using SP-ADMM for Residential Demand Response with Weather and Consumer Uncertainties Vulnerability Detection Methodology for a Digital Signal Processor Micro-Controller at Edge Level Distributed Energy Resource Controller A Plug-and-Play Design Suite of Converters for the Electric Grid Battery Equivalent Model for Residential HVAC A Scalable and Distributed Algorithm for Managing Residential Demand Response Programs using Alternating Direction Method of Multipliers (ADMM) An Automatic Learning Framework for Smart Residential Communities... Power Grid Simulation Testbed for Transactive Energy Management Systems An intelligent energy router for managing behind-the-meter resources and assets SMART TECHNOLOGIES ENABLE HOMES TO BE EFFICIENT AND INTERACTIVE WITH THE GRID Agent-Based Framework for Supporting Behind the Meter Transactive Power Electronic Systems Real-Time MPC for Residential Building Water Heater Systems to Support the Electric Grid Pagination First page « First Previous page ‹â¶Ä¹ Page 1 Current page 2 Page 3 … Next page ›â¶Äº Last page Last » Key Links Curriculum Vitae Organizations Energy Science and Technology Directorate Electrification and Energy Infrastructures Division
