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VHDL-AMS modeling of an automotive vibration isolation seating system

VHDL-AMS modeling of an automotive vibration isolation seating system
VHDL-AMS modeling of an automotive vibration isolation seating system
This paper presents VHDL-AMS model of an automotive vibration isolation seating system with an active electromechanical actuator. Five control algorithms for the actuator are implemented and their efficiencies are investigated by subjecting the system to a number of stimuli, such as a single jolt or noisy harmonic excitations. Simulations were carried out using the SystemVision simulator and results are shown to compare the relative performance merits of the control methods.
Wang, Leran
91d2f4ca-ed47-4e47-adff-70fef3874564
Kazmierski, Tom
a97d7958-40c3-413f-924d-84545216092a
Wang, Leran
91d2f4ca-ed47-4e47-adff-70fef3874564
Kazmierski, Tom
a97d7958-40c3-413f-924d-84545216092a

Wang, Leran and Kazmierski, Tom (2005) VHDL-AMS modeling of an automotive vibration isolation seating system. IASTED international conference on Circuits, Signals and Systems (CSS 2005), Marina Del Rey, United States. 24 - 26 Oct 2005.

Record type: Conference or Workshop Item (Paper)

Abstract

This paper presents VHDL-AMS model of an automotive vibration isolation seating system with an active electromechanical actuator. Five control algorithms for the actuator are implemented and their efficiencies are investigated by subjecting the system to a number of stimuli, such as a single jolt or noisy harmonic excitations. Simulations were carried out using the SystemVision simulator and results are shown to compare the relative performance merits of the control methods.

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More information

Published date: 2005
Additional Information: Event Dates: 24-26 October, 2005
Venue - Dates: IASTED international conference on Circuits, Signals and Systems (CSS 2005), Marina Del Rey, United States, 2005-10-24 - 2005-10-26
Organisations: EEE

Identifiers

Local EPrints ID: 263697
URI: http://eprints.soton.ac.uk/id/eprint/263697
PURE UUID: 53e13c4b-2185-4e58-8251-c8cbc9517067

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Date deposited: 14 Mar 2007
Last modified: 14 Mar 2024 07:36

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Contributors

Author: Leran Wang
Author: Tom Kazmierski

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