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A Modular Architecture for a Driving Simulator Based on the FDMU Approach

Filippo, Francesco De and Stork, André and Schmedt, Hendrik and Bruno, Fabio (2014):
A Modular Architecture for a Driving Simulator Based on the FDMU Approach.
In: IJIDeM - International Journal on Interactive Design and Manufacturing, 8 (2), pp. 139-150;Firstublishedonline, DOI: 10.1007/s12008-013-0182-3,
[Article]

Abstract

The present paper describes the development of a modular and easily configurable simulation platform for ground vehicles. This platform should be usable for the implementation of driving simulators employed both in training purposes and in vehicle components testing. In particular, the paper presents a first architectural model for the implementation of a simulation platform based on the Functional Digital Mock-Up (FDMU) approach. This platform will allow engineers to implement different kinds of simulators that integrate both physical and virtual components, thus achieving the possibility to quickly reconfigure the architecture depending on the hardware and software used and on specific test case needs. The platform has been tested by developing a case study that integrates a motion platform, some I/O devices and a simple dynamic ground vehicle model implemented in OpenModelica.

Item Type: Article
Erschienen: 2014
Creators: Filippo, Francesco De and Stork, André and Schmedt, Hendrik and Bruno, Fabio
Title: A Modular Architecture for a Driving Simulator Based on the FDMU Approach
Language: English
Abstract:

The present paper describes the development of a modular and easily configurable simulation platform for ground vehicles. This platform should be usable for the implementation of driving simulators employed both in training purposes and in vehicle components testing. In particular, the paper presents a first architectural model for the implementation of a simulation platform based on the Functional Digital Mock-Up (FDMU) approach. This platform will allow engineers to implement different kinds of simulators that integrate both physical and virtual components, thus achieving the possibility to quickly reconfigure the architecture depending on the hardware and software used and on specific test case needs. The platform has been tested by developing a case study that integrates a motion platform, some I/O devices and a simple dynamic ground vehicle model implemented in OpenModelica.

Journal or Publication Title: IJIDeM - International Journal on Interactive Design and Manufacturing
Volume: 8
Number: 2
Uncontrolled Keywords: Business Field: Virtual engineering, Research Area: Generalized digital documents, Driving simulation, Realtime simulation, Virtual reality (VR), Digital mock-up (DMU)
Divisions: 20 Department of Computer Science
20 Department of Computer Science > Interactive Graphics Systems
Date Deposited: 12 Nov 2018 11:16
DOI: 10.1007/s12008-013-0182-3
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