Zhaohui Zhong scite author profile

Fault tolerance is a critical requirement for robust motion control of redundant robotic manipulators. This task aims to endow the redundant manipulator with the capability to achieve the required path of end-effector in the condition that one or some of its joints' motion fail. Although many fault-tolerant control algorithms of redundant manipulator have been proposed in recent years. However, few of them are on the basis of the condition that the robotic model is unknown. The complexity of the calculation model limits the efficiency and portability of these algorithms. For the first time, we proposed a discrete model-free fault tolerant tracking control (DMFFTC) scheme of redundant manipulator, which takes into account the fault tolerance in the control system of redundant manipulator by formulating it into a quadratic programming (QP) framework. The core of the proposed scheme consists of a discrete kinematic estimator and a discrete QP solver, powered by which the fault-tolerant control problem is transformed into a unified computing problem relaxing the need of knowing the redundant manipulator's kinematic model. A discrete joint space observer is proposed for detection of the happening of faulty states. Extensive simulations and experiments based on a redundant manipulator are performed and analyzed to support the verification of the efficiency and effectiveness of the proposed scheme.

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Zhaohui Zhong

Data-Driven Control for Continuum Robots Based on Discrete Zeroing Neural Networks

A Discrete Model-Free Scheme for Fault-Tolerant Tracking Control of Redundant Manipulators

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