Design and Verification of a Creeping Mars Rover

Proceedings of the 11th Asia-Pacific Regional Conference of the ISTVS Pub Date : 2022-10-10 DOI:10.56884/bjjs7767

Wangjun Zhang, Yang Jia, Zhu Tao

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Abstract

Aiming at the possible wheel sinkage, difficulty in climbing and underpinning of Mars rover with traditional passive suspension due to the complex terrain of Mars surface, the characteristics of the inchworm motion are imitated, and a creeping Mars rover is designed, include the design of sinkage and extrication, slope-climbing, anti-underpinning, and wheel-lifting. The key parameters of the mobile system of creeping rover are identified and the key parameter values of different rover lift heights and the displacement value of a creeping cycle are calculated. and the results show that the creeping rover can solve the above problems encountered by the passive suspension rover. Ground tests and flight tests have been carried out on the designed creeping rover, and the ground tests have verified the ability of wheel sinkage and extrication, obstacle-overcoming, and slope-climbing. As an example of the application of the creeping rover, the “Zhurong” Mars rover has undergone flight tests, and its successful operation on the surface of Mars shows that the design measures of the creeping are effective.

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爬行火星探测器的设计与验证

针对火星表面地形复杂，采用传统被动悬架的火星探测车可能出现的车轮下沉、攀爬和支撑困难等问题，模拟了蚯蚓运动特性，设计了爬行火星探测车，包括下沉和脱身设计、爬坡设计、反支撑设计和车轮提升设计。识别了爬行机器人移动系统的关键参数，计算了爬行机器人不同升降高度时的关键参数值和爬行周期的位移值。结果表明，爬行漫游车可以解决被动悬架漫游车所遇到的上述问题。对所设计的爬行月球车进行了地面试验和飞行试验，地面试验验证了车轮沉降和脱险、越障和爬坡的能力。作为爬行火星车应用实例，“朱荣”号火星车进行了飞行试验，在火星表面成功运行，表明爬行设计措施是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 11th Asia-Pacific Regional Conference of the ISTVS

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