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IEEE VTS Motor Vehicles Challenge 2023: A Multi-physical Benchmark Problem for Next Generation Energy Management Algorithms

Jonathan Brembeck, Ricardo de Castro, Jakub Tobolář, Iman Ebrahimi

20222022 IEEE Vehicle Power and Propulsion Conference (VPPC)14 citationsDOI

Abstract

This article presents a benchmark problem that researchers can use to evaluate the performance of energy management algorithms for multi-energy source and multimotor electric vehicles. The model makes use of Modelica, an open source, a-causal, object-oriented language for modeling cyber-physical systems in multi-domains (e.g. electrical, mechanical, thermal) of the vehicle components. The model also includes the aspect of three-dimensional mechanics, which enables completely new degrees of freedom in the controller design in comparison to one-dimensional approaches. To support interoperability among multiple design tools, the Modelica vehicle model is provided as a Functional Mockup Unit, an industry standard for exchange of simulation models. A set of standardized input-output interfaces and key performance metrics is also provided in the benchmarking problem, enabling the systematic ranking of multiple energy management strategies.

Topics & Concepts

ModelicaBenchmark (surveying)BenchmarkingComputer scienceInteroperabilityEnergy managementRanking (information retrieval)Key (lock)Control engineeringEnergy (signal processing)SimulationEngineeringArtificial intelligenceGeographyStatisticsOperating systemMathematicsMarketingComputer securityGeodesyBusinessElectric and Hybrid Vehicle TechnologiesModeling and Simulation SystemsReal-time simulation and control systems
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