Multi-Domain Modeling Through Specification of a Modeling Language: A Case Study of a Bidirectional DC/DC Converter - Softcover

Mendes, Alexander Lloyd

9783659465604: Multi-Domain Modeling Through Specification of a Modeling Language: A Case Study of a Bidirectional DC/DC Converter

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ISBN 10: 3659465607 ISBN 13: 9783659465604

Publisher: LAP LAMBERT Academic Publishing, 2013

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Cyber-Physical Systems pair discrete-event computational components with physical components that are governed by continuous-time dynamics. If we are able to simultaneously model the computational and physical aspects of a system, then we could drastically shorten timelines for such systems by being able to simulate, evaluate, and formally verify integrated system behavior all prior to the costly phase of deployment. In this work, we present the Signal Flow Domain Specific Modeling Language: a free and open language for describing synchronous control logic within the Cyber-Physical Systems Modeling Language (CyPhyML). Signal Flow is adept at modeling software processes, and its functional blocks are math functions which reference underlying C-code snippets. Furthermore, Signal Flow models can synthesize deployable C-code, for use within the target hardware platform. We describe the use of Signal Flow within CyPhyML for integrating the computational and physical components of a bidirectional DC/DC converter intended for use in a hybrid vehicle. We first derive the circuit behavior, and then model the full system in CyPhyML employing Signal Flow to model the vehicle controller.

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About the Author

Alex Mendes was born January 18, 1989 in Springfield, Massachusetts. He attended Vanderbilt University from 2007-2013, graduating with honors from the Bachelor program in 2011, and later earning a Master’s in Electrical Engineering while working for Xerox Corp. His interests include electronics, military vehicle design, and cyber-physical systems.

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PublisherLAP LAMBERT Academic Publishing
Publication date2013
ISBN 10 3659465607
ISBN 13 9783659465604
BindingPaperback
LanguageEnglish
Number of pages144

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Multi-Domain Modeling Through Specification of a Modeling Language

Alexander Lloyd Mendes

Published by LAP LAMBERT Academic Publishing Okt 2013, 2013

ISBN 10: 3659465607 ISBN 13: 9783659465604

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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Cyber-Physical Systems pair discrete-event computational components with physical components that are governed by continuous-time dynamics. If we are able to simultaneously model the computational and physical aspects of a system, then we could drastically shorten timelines for such systems by being able to simulate, evaluate, and formally verify integrated system behavior all prior to the costly phase of deployment. In this work, we present the Signal Flow Domain Specific Modeling Language: a free and open language for describing synchronous control logic within the Cyber-Physical Systems Modeling Language (CyPhyML). Signal Flow is adept at modeling software processes, and its functional blocks are math functions which reference underlying C-code snippets. Furthermore, Signal Flow models can synthesize deployable C-code, for use within the target hardware platform. We describe the use of Signal Flow within CyPhyML for integrating the computational and physical components of a bidirectional DC/DC converter intended for use in a hybrid vehicle. We first derive the circuit behavior, and then model the full system in CyPhyML employing Signal Flow to model the vehicle controller. 144 pp. Englisch. Seller Inventory # 9783659465604

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Multi-Domain Modeling Through Specification of a Modeling Language : A Case Study of a Bidirectional DC/DC Converter

Alexander Lloyd Mendes

Published by LAP LAMBERT Academic Publishing, 2013

ISBN 10: 3659465607 ISBN 13: 9783659465604

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Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Cyber-Physical Systems pair discrete-event computational components with physical components that are governed by continuous-time dynamics. If we are able to simultaneously model the computational and physical aspects of a system, then we could drastically shorten timelines for such systems by being able to simulate, evaluate, and formally verify integrated system behavior all prior to the costly phase of deployment. In this work, we present the Signal Flow Domain Specific Modeling Language: a free and open language for describing synchronous control logic within the Cyber-Physical Systems Modeling Language (CyPhyML). Signal Flow is adept at modeling software processes, and its functional blocks are math functions which reference underlying C-code snippets. Furthermore, Signal Flow models can synthesize deployable C-code, for use within the target hardware platform. We describe the use of Signal Flow within CyPhyML for integrating the computational and physical components of a bidirectional DC/DC converter intended for use in a hybrid vehicle. We first derive the circuit behavior, and then model the full system in CyPhyML employing Signal Flow to model the vehicle controller. Seller Inventory # 9783659465604

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