植被覆盖地形上地面车辆机动预测的有限元模型

T. Wasfy, Hatem M. Wasfy, P. Jayakumar, Srinivas Sanikommu
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引用次数: 1

摘要

提出了一种用于预测地面车辆与植被动态相互作用的有限元植被模型。该模型的目的是在植被覆盖的地形上预测地面车辆的机动性。植被的类型可以从直径小的高度柔顺的茎到大的僵硬的树。这些包括各种类型的植被,如草,作物,灌木/灌木,小树和大树。可预测的机动性措施包括沿指定路径行驶的最大安全车速、轮胎打滑和燃油消耗。地面车辆采用高保真多体动力学模型建模。植被茎部采用细梁和/或粗梁有限元的排列方式建模。细梁模型对小型柔性植被采用扭转弹簧梁公式,仅包含轴向和弯曲梁响应。粗梁模型包括梁的轴向、弯曲、扭转和剪切响应,并采用集总参数梁单元连接两个刚体型节点。植被模型包括与车辆和茎之间的正常接触和摩擦、茎断裂和茎气动力的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Finite Element Model for Prediction of Ground Vehicle Mobility Over Vegetation Covered Terrains
A finite element vegetation model is presented for predicting the dynamic interaction of ground vehicles with vegetation. The purpose of the model is to predict ground vehicle mobility over vegetation covered terrains. The types of vegetation can range from small diameter highly compliant stems to large stiff trees. Those include various types of vegetation such as grass, crops, shrubs/bushes, small trees, and large trees. Mobility measures which can be predicted include maximum safe vehicle speed along a specified path, tire slip, and fuel consumption. The ground vehicles are modeled using high-fidelity multibody dynamics models. The vegetation stems are modeled using an arrangement of thin and/or thick beam finite elements. The thin beam model uses the torsional spring beam formulation for small flexible vegetation and only includes the axial and bending beam responses. The thick beam model includes axial, bending, torsional, and shear beam responses and uses a lumped parameter beam element which connects two rigid body type nodes. The vegetation model includes the effects of normal contact and friction with the vehicle and between stems, stem breaking, and stem aerodynamic forces.
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