Fan Yang scite author profile

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Fuzzy arithmetic on LR fuzzy numbers with applications to fuzzy programming

Zhou

Yang

Wang

2015

IFS

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Multi-objective optimization in uncertain random environments

Zhou

Yang

Wang

2014

Fuzzy Optim Decis Making

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Motion planning and implementation for the self-recovery of an overturned multi-legged robot

Peng¹,

Ding²,

Yang³

et al. 2015

Robotica

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SUMMARYThis paper first presents a method of motion planning and implementation for the self-recovery of an overturned six-legged robot. Previous studies aimed at the static and dynamic stabilization of robots for preventing them from overturning. However, no one can guarantee that an overturn accident will not occur during various applications of robots. Therefore, the problems involving overturning should be considered and solved during robot design and control. The design inspirations of multi-legged robots come from nature, especially insects and mammals. In addition, the self-recovery approach of an insect could also be imitated by robots. In this paper, such a self-recovery mechanism is reported. The inertial forces of the dangling legs are used to bias some legs to touch the ground, and the ground reaction forces exerted on the feet of landing legs are achieved to support and push the body to enable recovery without additional help. By employing the mechanism, a self-recovery approach named SSR (Sidewise-Self-Recovery) is presented and applied to multi-legged robots. Experiments of NOROS are performed to validate the effectiveness of the self-recovery motions. The results show that the SSR is a suitable method for multi-legged robots and that the hemisphere shell of robots can help them to perform self-recovery.

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An Open Model for Learning Path Construction

Yang

Lau

2010

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Fan Yang

Study on student performance estimation, student progress analysis, and student potential prediction based on data mining

Fuzzy arithmetic on LR fuzzy numbers with applications to fuzzy programming

Multi-objective optimization in uncertain random environments

Motion planning and implementation for the self-recovery of an overturned multi-legged robot

An Open Model for Learning Path Construction

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