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Dynamic Simulation of Planetary Rovers with Terrain Property Mapping * Research supported by National Natural Science Foundation of China (Grant No. 61370033), National Basic Research Program of China (Grant No. 2013CB035502), Foundation for Innovative Re

机译：地球性能映射的动态模拟与地球性能映射*中国国家自然科学基金（Grant No.61370033），中国国家基础研究计划（授予2013CB035502），创新RE的基础

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Simulation of planetary rovers moving on complex terrains is critical for Mars exploration. Equivalent stiffness is proposed and used to characterize the pressure-sinkage property of terrain, while friction angle to characterize the shearing property. Terramechanics model for calculating forces between rigid wheel and soil is proved to be the same with that contact model for calculating forces between rigid wheel and rock. A Digital Elevation Map with Physical Properties is developed and applied to simulate terrain physical properties along with its geometry information. The established methods are validated using simulation and experimental tests with a three-wheel-rover.

机译：在复杂地形上移动的行星流动群体对火星勘探至关重要。提出并用于表征地形的压力降低性的等效刚度，而摩擦角度表征剪切性能。用于计算刚性轮和土壤之间的力量的机器机模型与刚性轮和岩石之间的力量计算的接触模型相同。开发和应用具有物理性质的数字高度映射，以模拟地形物理属性以及其几何信息。使用具有三轮流动站的模拟和实验测试验证了所建立的方法。

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《IEEE International Conference on Robotics and Automation》|2018年|1 v.|共6页
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作者
Huaiguang Yang; Liang Ding; Haibo Gao; Lan Huang; Junlong Guo; Chao Chen; Zongquan Deng;
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中图分类机器人技术;
关键词
Soil; Mathematical model; Wheels; Stress; Computational modeling; Shearing; Force;

机译：土壤;数学模型;车轮;压力;计算建模;剪切;力量;

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Dynamic Simulation of Planetary Rovers with Terrain Property Mapping * Research supported by National Natural Science Foundation of China (Grant No. 61370033), National Basic Research Program of China (Grant No. 2013CB035502), Foundation for Innovative Re

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