Title :
User-Steered Energy Generation and Consumption Multimodel Simulation for Pricing and Policy Development
Author :
Smith, Harrison B. ; Pielow, Amy ; Jayakumar, Akshay ; Muratori, Matteo ; Yurkovich, B.J. ; Sioshansi, Ramteen ; Krishnamurthy, Arvind ; Rizzoni, Giorgio ; Roberts, Matthew C.
Abstract :
Understanding energy use is critical. Although simulation is valuable, such models are simplified abstractions of actual energy systems. The authors present an energy system multimodel implemented with the Language and Platform Independent Steering (LAPIS) computational steering API. They present an adaptable framework for the integration and development of multimodel simulations. This framework enables independent development of component simulations, limits coordination overhead between developers, and allows modularity and flexibility in the overall multimodel simulation. Use case studies demonstrate the capabilities of the multimodel energy system simulation and LAPIS.
Keywords :
application program interfaces; energy conservation; energy consumption; environmental science computing; LAPIS computational steering API; application program interface; energy consumption multimodel simulation; energy system multimodel; energy use; language and platform independent steering; policy development; pricing development; user-steered energy generation; Biological system modeling; Computational modeling; Data models; Electricity supply industry; Energy management; Load modeling; Power markets; Power system economics; Pricing; Simulation; computational steering; energy policy; energy system modeling; multimodel simulation; scientific computing;
Journal_Title :
Computing in Science & Engineering
DOI :
10.1109/MCSE.2013.48
