Power systems involve continuous and discrete components and controls. The modeling of 'hybrid' power systems using a logical specification to define the transition dynamics of the discrete subsystem is described. A computational tool for reduction of the logical specification to a set of inequalities is discussed. The use of the transformed model in a dynamic programming approach to the design of optimal feedback controls is described. Examples are given.
Optimal shipboard power system management via mixed integer dynamic programming
2005-01-01
1407689 byte
Conference paper
Electronic Resource
English
SAGE Publications | 2016
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