Mathias Bürger, Claudio De Persis, Frank Allgöwer
Published 2014-03-27Version 1
This paper studies the problem of optimal flow control in dynamic inventory systems. A dynamic optimal distribution problem, including time-varying supply and demand, capacity constraints on the transportation lines, and convex flow cost functions of Legendre-type, is formalized and solved. The time-varying optimal flow is characterized in terms of the time-varying dual variables of a corresponding network optimization problem. A dynamic feedback controller is proposed that regulates the flows asymptotically to the optimal flows and achieves in addition a balancing of all storage levels.
Comments: Submitted to 21st International Symposium on Mathematical Theory of Networks and Systems (MTNS) in December 2013
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