Approximated beats exact Interface Jacobians at model-based co-simulation - explanation and impact

Simon Genser; Martin Benedikt; Daniel Watzenig

doi:10.1016/j.mechmachtheory.2022.104986

Approximated beats exact Interface Jacobians at model-based co-simulation - explanation and impact

Simon Genser^*, Martin Benedikt, Daniel Watzenig

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

This work deals with the effect of approximated and exact Interface Jacobians according the stability of the overall co-simulation, which is coupled via the Model-based Pre-Step Stabilization Method. At the co-simulation of a helicopter and its controller, the exact Interface Jacobian based co-simulation results in an instable behaviour, whereas with approximated ones the results are accurate and stable. This leads to the question why is there this paradoxical behaviour? For a detailed analysis, the dual mass oscillator, a co-simulation benchmark example, is additionally investigated and also a simulation study of more than 2500 runs has been performed. Leading to the conclusion that for industrial use cases the usage of approximated Interface Jacobians is favourable against exact ones due to the so-called mutual influence between the subsystems.

Original language	English
Article number	104986
Number of pages	12
Journal	Mechanism and Machine Theory
Volume	176
DOIs	https://doi.org/10.1016/j.mechmachtheory.2022.104986
Publication status	Published - Oct 2022

Keywords

Co-simulation
Helicopter-control simulation
Interface Jacobian
Model-based coupling
Pre-Step Stabilization

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Bioengineering
Computer Science Applications

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https://doi.org/10.1016/j.mechmachtheory.2022.104986Licence: CC BY 4.0

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title = "Approximated beats exact Interface Jacobians at model-based co-simulation - explanation and impact",

abstract = "This work deals with the effect of approximated and exact Interface Jacobians according the stability of the overall co-simulation, which is coupled via the Model-based Pre-Step Stabilization Method. At the co-simulation of a helicopter and its controller, the exact Interface Jacobian based co-simulation results in an instable behaviour, whereas with approximated ones the results are accurate and stable. This leads to the question why is there this paradoxical behaviour? For a detailed analysis, the dual mass oscillator, a co-simulation benchmark example, is additionally investigated and also a simulation study of more than 2500 runs has been performed. Leading to the conclusion that for industrial use cases the usage of approximated Interface Jacobians is favourable against exact ones due to the so-called mutual influence between the subsystems.",

keywords = "Co-simulation, Helicopter-control simulation, Interface Jacobian, Model-based coupling, Pre-Step Stabilization",

author = "Simon Genser and Martin Benedikt and Daniel Watzenig",

year = "2022",

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doi = "10.1016/j.mechmachtheory.2022.104986",

language = "English",

volume = "176",

journal = "Mechanism and Machine Theory",

issn = "0094-114X",

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T1 - Approximated beats exact Interface Jacobians at model-based co-simulation - explanation and impact

AU - Genser, Simon

AU - Benedikt, Martin

AU - Watzenig, Daniel

PY - 2022/10

Y1 - 2022/10

N2 - This work deals with the effect of approximated and exact Interface Jacobians according the stability of the overall co-simulation, which is coupled via the Model-based Pre-Step Stabilization Method. At the co-simulation of a helicopter and its controller, the exact Interface Jacobian based co-simulation results in an instable behaviour, whereas with approximated ones the results are accurate and stable. This leads to the question why is there this paradoxical behaviour? For a detailed analysis, the dual mass oscillator, a co-simulation benchmark example, is additionally investigated and also a simulation study of more than 2500 runs has been performed. Leading to the conclusion that for industrial use cases the usage of approximated Interface Jacobians is favourable against exact ones due to the so-called mutual influence between the subsystems.

AB - This work deals with the effect of approximated and exact Interface Jacobians according the stability of the overall co-simulation, which is coupled via the Model-based Pre-Step Stabilization Method. At the co-simulation of a helicopter and its controller, the exact Interface Jacobian based co-simulation results in an instable behaviour, whereas with approximated ones the results are accurate and stable. This leads to the question why is there this paradoxical behaviour? For a detailed analysis, the dual mass oscillator, a co-simulation benchmark example, is additionally investigated and also a simulation study of more than 2500 runs has been performed. Leading to the conclusion that for industrial use cases the usage of approximated Interface Jacobians is favourable against exact ones due to the so-called mutual influence between the subsystems.

KW - Co-simulation

KW - Helicopter-control simulation

KW - Interface Jacobian

KW - Model-based coupling

KW - Pre-Step Stabilization

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Approximated beats exact Interface Jacobians at model-based co-simulation - explanation and impact

Abstract

Keywords

ASJC Scopus subject areas

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