LOGIC BASED DESIGN OF OPTIMAL RECONFIGURATION STRATEGIES FOR SHIP POWER SYSTEMS

Harry G. Kwatny; Edoe Mensah; Dagmar Niebur; Gaurav Bajpai; Carole Teolis

doi:10.3182/20070822-3-ZA-2920.00151

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LOGIC BASED DESIGN OF OPTIMAL RECONFIGURATION STRATEGIES FOR SHIP POWER SYSTEMS

Journal article

Open access

LOGIC BASED DESIGN OF OPTIMAL RECONFIGURATION STRATEGIES FOR SHIP POWER SYSTEMS

Harry G. Kwatny, Edoe Mensah, Dagmar Niebur, Gaurav Bajpai and Carole Teolis

IFAC Proceedings Volumes, v 40(12), pp 910-915

2007

DOI: https://doi.org/10.3182/20070822-3-ZA-2920.00151

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Published, Version of Record (VoR)Maybe Open Access (Publisher Bronze), Open

Abstract

applications

feedback design

hybrid systems

nonlinear dynamics

optimal control

switching

A ship electric power system is characterized by a family of nonlinear differential algebraic equations indexed by the discrete modes of system operation. Mixed integer dynamic programming is used to compute optimal mode transition strategies that protect vital loads and maximize the amount of non-vital loads that are supplied.

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Title: LOGIC BASED DESIGN OF OPTIMAL RECONFIGURATION STRATEGIES FOR SHIP POWER SYSTEMS
Creators: Harry G. Kwatny - Drexel University
Edoe Mensah - Drexel University
Dagmar Niebur - Drexel University
Gaurav Bajpai - Physical Sciences
Carole Teolis - Physical Sciences
Publication Details: IFAC Proceedings Volumes, v 40(12), pp 910-915
Resource Type: Journal article
Language: English
Academic Unit: Electrical and Computer Engineering; Mechanical Engineering and Mechanics
Scopus ID: 2-s2.0-79960939515
Other Identifier: 991019174223204721

LOGIC BASED DESIGN OF OPTIMAL RECONFIGURATION STRATEGIES FOR SHIP POWER SYSTEMS

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