Analyzing the coupling process of distributed mixed real-virtual prototypes
Autor: | Baumann, Peter, Mikelsons, Lars, Kotte, Oliver, Schramm, Dieter |
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Rok vydání: | 2024 |
Předmět: | |
Zdroj: | 33rd Annual European Simulation and Modelling Conference 2019, ESM 2019, Pages 251 - 258, 2019, Plama de Mallorca, 28 October 2019 through 30 October 2019 |
Druh dokumentu: | Working Paper |
Popis: | The ongoing connection and automation of vehicles leads to a closer interaction of the individual vehicle components, which demands for consideration throughout the entire development process. In the design phase, this is achieved through co-simulation of component models. However, complex co-simulation environments are rarely (re-)used in the verification and validation phases, in which mixed real-virtual prototypes (e.g. Hardware-in-the-Loop) are already available. One reason for this are coupling errors such as time-delays, which inevitably occur in co-simulation of virtual and real-time systems, and which influence system behavior in an unknown and generally detrimental way. This contribution introduces a novel, adaptive method to compensate for constant time-delays in potentially highly nonlinear, spatially distributed mixed real-virtual prototypes, using small feedforward neural networks. Their optimal initialization with respect to defined frequency domain features results from a-priori frequency domain analysis of the entire coupled system, including coupling faults and compensation methods. A linear and a nonlinear example demonstrate the method and emphasize its suitability for nonlinear systems due to online training and adaptation. As the compensation method requires knowledge only of the bandwidths, the proposed method is applicable to distributed mixed real-virtual prototypes in general. Comment: 8 pages, 12 figures, published at 33rd Annual European Simulation and Modelling Conference, ESM 2019 |
Databáze: | arXiv |
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