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
01.01.2005
1407689 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Optimal mixed-mode runway — Mixed-integer programming for ATC scheduling
IEEE | 2011
|SAGE Publications | 2016
|