Fault-tolerant gaits of quadruped robots for locked joint failures

Jung Min Yang

doi:10.1109/TSMCC.2002.807274

Fault-tolerant gaits of quadruped robots for locked joint failures

Jung Min Yang

School of Electronics Engineering

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

This paper lays a theoretical foundation for fault detection and tolerance in static walking of legged robots. Legged robots considered in this paper have symmetric structures and legs which have the form of an articulated arm with three revolute joints. A kind of fault event (locked joint failure) is defined, and its properties are closely investigated in the frame of gait study and robot kinematics. For the purpose of tolerating a locked joint failure, an algorithm of fault-tolerant gaits for a quadruped robot is proposed in which the robot can continue its walking after a locked failure occurs to a joint of a leg. In particular, a periodic gait is proposed as a special form of the proposed algorithm and its existence and efficiency are analytically proven. A case study on applying the proposed scheme to wave gaits verifies its applicability and capability.

Original language	English
Pages (from-to)	507-516
Number of pages	10
Journal	IEEE Transactions on Systems, Man and Cybernetics Part C: Applications and Reviews
Volume	32
Issue number	4
DOIs	https://doi.org/10.1109/TSMCC.2002.807274
State	Published - Nov 2002

Keywords

Fault-tolerant gaits
Legged robots
Locked joint failures

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10.1109/TSMCC.2002.807274

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abstract = "This paper lays a theoretical foundation for fault detection and tolerance in static walking of legged robots. Legged robots considered in this paper have symmetric structures and legs which have the form of an articulated arm with three revolute joints. A kind of fault event (locked joint failure) is defined, and its properties are closely investigated in the frame of gait study and robot kinematics. For the purpose of tolerating a locked joint failure, an algorithm of fault-tolerant gaits for a quadruped robot is proposed in which the robot can continue its walking after a locked failure occurs to a joint of a leg. In particular, a periodic gait is proposed as a special form of the proposed algorithm and its existence and efficiency are analytically proven. A case study on applying the proposed scheme to wave gaits verifies its applicability and capability.",

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AB - This paper lays a theoretical foundation for fault detection and tolerance in static walking of legged robots. Legged robots considered in this paper have symmetric structures and legs which have the form of an articulated arm with three revolute joints. A kind of fault event (locked joint failure) is defined, and its properties are closely investigated in the frame of gait study and robot kinematics. For the purpose of tolerating a locked joint failure, an algorithm of fault-tolerant gaits for a quadruped robot is proposed in which the robot can continue its walking after a locked failure occurs to a joint of a leg. In particular, a periodic gait is proposed as a special form of the proposed algorithm and its existence and efficiency are analytically proven. A case study on applying the proposed scheme to wave gaits verifies its applicability and capability.

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Fault-tolerant gaits of quadruped robots for locked joint failures

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Keywords

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