基于模型的地形适应火星探测器滚转轴控制

Proceedings of the Third International Workshop on Robot Motion and Control, 2002. RoMoCo '02. Pub Date : 2002-11-09 DOI:10.1109/ROMOCO.2002.1177113

B. Gajjar, R. Johnson

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引用次数: 0

摘要

这篇论文使用航位推算的方法来“适应地形”移动机器人在火星这样的岩石地形上移动。除了使用轮式编码器外，还使用加速度计和速率陀螺仪来感知漫游车底盘的运动，并利用地形适应系统沿滚动轴稳定漫游车底盘。将速率传感器数据与车轮编码器的车轮速度数据和加速度计信息融合，实现对地形自适应臂的控制。利用现代卡尔曼滤波系统对基于模型的系统的输入进行调节，并开发了机器人地形自适应系统的非线性控制以产生渐近稳定性。最后，结合实际样机的设计要求，给出了仿真结果。

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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Model based roll axis control of a terrain adapting Mars rover

This paper uses aspects of dead reckoning for "terrain adapting" a mobile robot moving over a rocky terrain like that of Mars. Besides the use of wheel encoders, an accelerometer and a rate gyro is used to sense the motion of the rover chassis and stabilize it, along the roll axis with the terrain adapting system. The rate sensor data is fused with the wheel velocity data from the wheel encoder and the accelerometer information to control the terrain-adapting arm. A contemporary Kalman filter system is utilized to condition the input to the model based system, and a nonlinear control for the robot's terrain adaptation system has been developed to generate asymptotic stability. Finally, simulation results have been developed considering the design requirements for an actual prototype.

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Proceedings of the Third International Workshop on Robot Motion and Control, 2002. RoMoCo '02.

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