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Vehicle System Dynamics
International Journal of Vehicle Mechanics and Mobility
Volume 55, 2017 - Issue 1
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Articles

Direct yaw moment control and power consumption of in-wheel motor vehicle in steady-state turning

Takao KobayashiMechanical Engineering Dept. 2, Toyota Central R&D Labs., Inc., Aichi, JapanCorrespondence[email protected]
,
Etsuo KatsuyamaVehicle Dynamics Control Engineering Div., Toyota Motor Corporation, Shizuoka, Japan
,
Hideki SugiuraMechanical Engineering Dept. 2, Toyota Central R&D Labs., Inc., Aichi, Japan
,
Eiichi OnoMechanical Engineering Dept. 2, Toyota Central R&D Labs., Inc., Aichi, Japan
&
Masaki YamamotoVehicle Dynamics Control Engineering Div., Toyota Motor Corporation, Shizuoka, Japan
Pages 104-120 | Received 23 Apr 2015, Accepted 27 Sep 2016, Published online: 01 Nov 2016
 
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ABSTRACT

Driving force distribution control is one of the characteristic performance aspects of in-wheel motor vehicles and various methods have been developed to control direct yaw moment while turning. However, while these controls significantly enhance vehicle dynamic performance, the additional power required to control vehicle motion still remains to be clarified. This paper constructed new formulae of the mechanism by which direct yaw moment alters the cornering resistance and mechanical power of all wheels based on a simple bicycle model, including the electric loss of the motors and the inverters. These formulation results were validated by an actual test vehicle equipped with in-wheel motors in steady-state turning. The validated theory was also applied to a comparison of several different driving force distribution mechanisms from the standpoint of innate mechanical power.

Disclosure statement

No potential conflict of interest was reported by the authors.

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