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This paper presents the following VAN concept led by a vehicle analysis: electrical architecture must not be basically changed in order to be cost effective; efficiency, interoperability and safety aspects must be rigorously respected to avoid lack of quality. As a consequence VAN solutions meet the requirement set concerning wiring, transceivers, protocol controllers and software services. Each of these solutions is optimized to assure safety and easy use. VAN transceivers support multiplexed applications - even high speed application - with conventional wiring. VAN controllers offer a large diversity of services, so allow the minimization of network load, of CPU load, with a high Real Time efficiency. Moreover their structure is very open to diagnosis requirements. VAN softwares provide simple, reliable, reusable mechanisms of sharing, exchange and synchronization. Such mechanisms minimize cost development and guarantee safety proofs in the liability context.

Reduction of pollutants and greenhouse gas emissions is one of the main objectives of car manufacturers and innovative solutions have to be considered to achieve this goal. Electric vehicles, and in particular Fuel Cell Electric Vehicles, appear to be a promising alternative. Renault is therefore investigating the technical and economic viability of a Fuel Cell Electric Vehicle (FCEV). A basic question of this study is the choice of the fuel that will be used for this kind of vehicle. Liquid fuels such as gasoline, diesel, naphtha, and gas-to-liquid can be a bridge for the introduction of fuel cell technologies while hydrogen infrastructure and storage are investigated. Therefore, multi-fuel Fuel Processor Systems that can convert liquid fuels to hydrogen while meeting automotive constraints are desired. Renault and Nuvera have joined forces to tackle this issue in a 3-year program where the objective is to develop and to integrate a Fuel Processor System (FPS) on a vehicle.

To reduce greenhouse gas emissions such as CO2, automakers are actively pursuing alternative propulsion systems. Improvements to current engine technology are being investigated along with new power plant technologies. Fuel Cell Vehicles offer an exciting option by producing electric power through a reaction that combines hydrogen and oxygen to make water. However, hydrogen storage onboard vehicles and construction of an expensive hydrogen distribution and fueling infrastructure remain as challenges today. In addition, greenhouse gas emissions from the production of hydrogen must be considered since most hydrogen is currently produced from non-renewable sources. While these issues are being worked on, Renault has chosen to pursue a fuel cell vehicle with a fuel processor that converts gasoline and other liquid fuels to hydrogen onboard the vehicle.