Path following control with slip compensation on loose soil for exploration rover

Genya Ishigami; Keiji Nagatani; Kazuya Yoshida

doi:10.1109/IROS.2006.282271

Path following control with slip compensation on loose soil for exploration rover

Genya Ishigami, Keiji Nagatani, Kazuya Yoshida

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

48 Citations (Scopus)

Abstract

In this paper, a path following control strategy for lunar/planetary exploration rovers is described, taking into account slip motion of the rover. It is determined that the slip motion of each wheel of the rover must be increased and cannot be neglected when the rover travels on loose soil. Because of slip, following an arbitrary path on loose soil is a difficult task. In order to improve this situation, the authors have developed a path following algorithm with slip compensation. In this algorithm, both steering and driving maneuvers of the rover are derived not only to follow an arbitrary path, but also simultaneously compensate for the slip. The performance of the path following strategy is confirmed through numerical simulation using the wheel-and-vehicle model elaborated in our previous research. The slip motion of the wheel is also addressed, based on a terramechanics approach. The proposed path following algorithm shows better performance than traditional control without slip compensation in the simulation.

Original language	English
Title of host publication	2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2006
Pages	5552-5557
Number of pages	6
DOIs	https://doi.org/10.1109/IROS.2006.282271
Publication status	Published - 2006 Dec 1
Event	2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2006 - Beijing, China Duration: 2006 Oct 9 → 2006 Oct 15

Other

Other	2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2006
Country	China
City	Beijing
Period	06/10/9 → 06/10/15

ASJC Scopus subject areas

Control and Systems Engineering
Software
Computer Vision and Pattern Recognition
Computer Science Applications

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Ishigami, G, Nagatani, K & Yoshida, K 2006, Path following control with slip compensation on loose soil for exploration rover. in 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2006., 4059315, pp. 5552-5557, 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2006, Beijing, China, 06/10/9. https://doi.org/10.1109/IROS.2006.282271

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abstract = "In this paper, a path following control strategy for lunar/planetary exploration rovers is described, taking into account slip motion of the rover. It is determined that the slip motion of each wheel of the rover must be increased and cannot be neglected when the rover travels on loose soil. Because of slip, following an arbitrary path on loose soil is a difficult task. In order to improve this situation, the authors have developed a path following algorithm with slip compensation. In this algorithm, both steering and driving maneuvers of the rover are derived not only to follow an arbitrary path, but also simultaneously compensate for the slip. The performance of the path following strategy is confirmed through numerical simulation using the wheel-and-vehicle model elaborated in our previous research. The slip motion of the wheel is also addressed, based on a terramechanics approach. The proposed path following algorithm shows better performance than traditional control without slip compensation in the simulation.",

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AU - Nagatani, Keiji

AU - Yoshida, Kazuya

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N2 - In this paper, a path following control strategy for lunar/planetary exploration rovers is described, taking into account slip motion of the rover. It is determined that the slip motion of each wheel of the rover must be increased and cannot be neglected when the rover travels on loose soil. Because of slip, following an arbitrary path on loose soil is a difficult task. In order to improve this situation, the authors have developed a path following algorithm with slip compensation. In this algorithm, both steering and driving maneuvers of the rover are derived not only to follow an arbitrary path, but also simultaneously compensate for the slip. The performance of the path following strategy is confirmed through numerical simulation using the wheel-and-vehicle model elaborated in our previous research. The slip motion of the wheel is also addressed, based on a terramechanics approach. The proposed path following algorithm shows better performance than traditional control without slip compensation in the simulation.

AB - In this paper, a path following control strategy for lunar/planetary exploration rovers is described, taking into account slip motion of the rover. It is determined that the slip motion of each wheel of the rover must be increased and cannot be neglected when the rover travels on loose soil. Because of slip, following an arbitrary path on loose soil is a difficult task. In order to improve this situation, the authors have developed a path following algorithm with slip compensation. In this algorithm, both steering and driving maneuvers of the rover are derived not only to follow an arbitrary path, but also simultaneously compensate for the slip. The performance of the path following strategy is confirmed through numerical simulation using the wheel-and-vehicle model elaborated in our previous research. The slip motion of the wheel is also addressed, based on a terramechanics approach. The proposed path following algorithm shows better performance than traditional control without slip compensation in the simulation.

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Path following control with slip compensation on loose soil for exploration rover

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