2014
DOI: 10.1002/j.2334-5837.2014.tb03139.x
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2.1.1 Model‐Based operational analysis for complex systems ‐ A case study for electric vehicles

Abstract: ABSTRACT. We present in this paper an operational analysis of a complex system following a Model Based Systems Engineering approach, illustrated by a case study on electric vehicles. We explain some strategic issues and reasons that make electric vehicles important and complex systems, and how these vehicles can significantly contribute to the European policies for sustainable development. We explain why it is necessary to apply a Systems Engineering approach to deal with the complexity of such systems, and we… Show more

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Cited by 17 publications
(10 citation statements)
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“…These models can be used to refine the operational concepts and support the optimization of system architectures [Doufene. et al 2013[Doufene. et al , 2014, support trade-off studies, support verification and validation, or promote the development of cohesive operational, functional and physical architectures of the system.…”
Section: Introductionmentioning
confidence: 99%
“…These models can be used to refine the operational concepts and support the optimization of system architectures [Doufene. et al 2013[Doufene. et al , 2014, support trade-off studies, support verification and validation, or promote the development of cohesive operational, functional and physical architectures of the system.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, SoSE practices have been broadened to include much smaller systems such as automotive SoS (Tudor and Botham 2014). For example, the electric-vehicle (EV) ecosystem can be considered an automotive system of systems that consists of multiple constituent systems such as the vehicle, the charging stations, the infrastructure and the information and communication systems that work together to achieve a unique capability (Doufene et al 2014). The systems of systems ecosystem could be also extended to include the utilities companies that provide the electricity, the automotive manufacturers, and their battery suppliers.…”
Section: Systems Of Systems Engineering (Sose)mentioning
confidence: 99%
“…This type of optimization problem can be formulated as the generalized multi-commodity network flow (GMCNF) problem. It is a novel network flow model that introduces three types of matrix multiplications (requirement, transformation, and concurrency) on top of the classical network flow problems and also allows loop edges associated with nodes (graph loops) and multiple edges between the same end nodes (multigraph) [14] [13]. The problem in this paper can be interpreted as a shortest path problem with internal sources of consumables.…”
Section: Path Calculation Modulementioning
confidence: 99%
“…The path calculation module retrieves all the parameters coordinates of charging stations on paths between A and B, their electrical characteristics, weather and traffic conditions on these paths, etc. This module calculates the conditions for success of the mission taking into account the battery throughout the trip, the time required to achieve the mission, and the cost depending on the eventual choice of energy cosystem [13].…”
Section: Introductionmentioning
confidence: 99%