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Efficient Simulation of Component-Based Hybrid Models Represented as Hybrid Bond GraphsM. Daigle, I. Roychoudhury, G. Biswas, X. Koutsoukos
Citation
M. Daigle, I. Roychoudhury, G. Biswas, X. Koutsoukos. "Efficient Simulation of Component-Based Hybrid Models Represented as Hybrid Bond Graphs". Hybrid Systems: Computation and Control (HSCC 2007), Lecture Notes in Computer Science, vol. 4416, 680-683, April, 2007.
Abstract
The complexity of modern embedded systems often requires the use of simulations for systematic design, analysis, and verification tasks. The nonlinear and hybrid nature of these systems make the building of accurate and computationally efficient simulation models very challenging. In this work, we adopt the Hybrid Bond Graph (HBG) paradigm, a uniform, multi-domain physics-based modeling language with local switching functions that enable the reconfiguration of energy flow paths to model hybrid systems. The inherent causal structure in HBG models is exploited to derive efficient hybrid simulation models as reconfigurable block diagram structures. We demonstrate our approach by modeling and analyzing the behavior of an electrical power system. Electronic downloads
- HTML
M. Daigle, I. Roychoudhury, G. Biswas, X. Koutsoukos. <a
href="http://chess.eecs.berkeley.edu/pubs/301.html"
>Efficient Simulation of Component-Based Hybrid Models
Represented as Hybrid Bond Graphs</a>, Hybrid Systems:
Computation and Control (HSCC 2007), Lecture Notes in
Computer Science, vol. 4416, 680-683, April, 2007.
- Plain text
M. Daigle, I. Roychoudhury, G. Biswas, X. Koutsoukos.
"Efficient Simulation of Component-Based Hybrid Models
Represented as Hybrid Bond Graphs". Hybrid Systems:
Computation and Control (HSCC 2007), Lecture Notes in
Computer Science, vol. 4416, 680-683, April, 2007.
- BibTeX
@inproceedings{DaigleRoychoudhuryBiswasKoutsoukos07_EfficientSimulationOfComponentBasedHybridModelsRepresented,
author = {M. Daigle and I. Roychoudhury and G. Biswas and X.
Koutsoukos},
title = {Efficient Simulation of Component-Based Hybrid
Models Represented as Hybrid Bond Graphs},
booktitle = {Hybrid Systems: Computation and Control (HSCC
2007), Lecture Notes in Computer Science, vol. 4416},
pages = { 680-683},
month = {April},
year = {2007},
abstract = {The complexity of modern embedded systems often
requires the use of simulations for systematic
design, analysis, and verification tasks. The
nonlinear and hybrid nature of these systems make
the building of accurate and computationally
efficient simulation models very challenging. In
this work, we adopt the Hybrid Bond Graph (HBG)
paradigm, a uniform, multi-domain physics-based
modeling language with local switching functions
that enable the reconfiguration of energy flow
paths to model hybrid systems. The inherent causal
structure in HBG models is exploited to derive
efficient hybrid simulation models as
reconfigurable block diagram structures. We
demonstrate our approach by modeling and analyzing
the behavior of an electrical power system.},
URL = {http://chess.eecs.berkeley.edu/pubs/301.html}
}
Posted by Christopher Brooks on 6 Jun 2007.
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