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박상철(Sangcheol Park),한재영(Jaeyeong Han),이종경(Jonggyeong Lee),김성수(Sung-Soo Kim),유상석(Sangseok Yu),최장영(Jangyoung Choi),차한주(Hanju Choe) 한국자동차공학회 2011 한국자동차공학회 학술대회 및 전시회 Vol.2011 No.11
A virtual chassis platform for fuel cell hybrid electric vehicles has been developed. The virtual chassis platform has been constructed using mathematical formulation with forward simulation method. Using the mathematical model, it is easy to change components or controllers for dynamic simulation. Control strategies which consider energy efficiency of the fuel cell are composed for the virtual chassis platform. The control strategies have been verified by fuel consumption from the driving simulation result with a UDDS velocity profile.
박상철(Sangcheol Park),윤홍선(Hongseon Yun),한재영(Jaeyeong Han),이종경(Jonggyeong Lee),김성수(Sung-Soo Kim),최장영(Jangyoung Choi),유상석(Sangseok Yu),차한주(Hanju Choe) 한국자동차공학회 2011 한국자동차공학회 부문종합 학술대회 Vol.2011 No.5
We developed fuel cell virtual vehicle platform which can be used for various simulations, to help FC vehicle development. The developed FC virtual vehicle platform consists of FC system module, motor powertrain module, drive module, longitudinal vehicle dynamics module. The modules can be easily replaced of by other types of modules to construct various FC models. To verify this capability, the simulation of FC virtual vehicle platform has been carried out.