扭矩
差速器(机械装置)
计算机科学
汽车工程
扭矩转向
控制理论(社会学)
航空学
工程类
航空航天工程
方向盘
人工智能
物理
控制(管理)
热力学
作者
Francis B. Hoogterp,William R. Meldrum
摘要
<div class="htmlview paragraph">This paper discusses the evolution of skid steer systems, and takes a new look at the advantages and implications of designing future ground combat vehicles with all non-steerable wheels. The traditional “skid steer” designation of such vehicles is dropped in favor of the more descriptive phrase “differential torque steer” vehicle. The possible advantages of such systems for combat vehicle application are presented along with a synopsis of various past modeling, simulation, and vehicle hardware efforts to evaluate skid steer systems. A comprehensive vehicle modeling effort for a differential torque steer system is then presented. Two independent implementations of the model are presented along with model verification and validation results. Finally the model is used to evaluate potential turning performance for a 4×4 vehicle with differential torque steer.</div>
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