Abstract
We address a design of Building Energy Management System (BEMS) that exploits the different energy carriers and achieves reliable power supply to a critical load. The BEMS of our interest includes a Fuel Cell (FC) hydrogen coproduction unit, a FC Vehicle (FCV), a photo-voltaic generation unit, and a battery unit as distributed energy sources, and handles different energy carriers which are a key enabler to realizing reliable supply of power inside the building. The design involves a mechanism to react to a dynamic uncertain environment by time-varying operations of the energy sources and FCV. In this sense, the so-called reactive design of BEMS becomes promising that is a system used in embedded softwares to maintain an ongoing interaction with its environment. For this design, we use the methodology for synthesis of reactive control systems from specifications described by linear temporal logic, which was recently reported in literature.
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