Xiaoxiao Li scite author profile

Xiaoxiao Li

4Publications

49Citation Statements Received

80Citation Statements Given

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Affiliations

Guangdong Institute of Intelligent Manufacturing, Chengdu University

Publications

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Cooperative Kinematic Control for Multiple Redundant Manipulators Under Partially Known Information Using Recurrent Neural Network

et al. 2020

IEEE Access

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In this study, we investigate the problem of cooperative kinematic control for multiple redundant manipulators under partially known information using recurrent neural network (RNN). The communication among manipulators is modeled as a graph topology network with the information exchange that only occurs at the neighbouring robot nodes. Under partially known information, four objectives are simultaneously achieved, i.e, global cooperation and synchronization among manipulators, joint physical limits compliance, neighbor-to-neighbor communication among robots, and optimality of cost function. We develop a velocity observer for each individual manipulator to help them to obtain the desired motion velocity information. Moreover, a negative feedback term is introduced with a higher tracking precision. Minimizing the joint velocity norm as cost function, the considered cooperative kinematic control is built as a quadratic programming (QP) optimization problem integrating with both joint angle and joint speed limitations, and is solved online by constructing a dynamic RNN. Moreover, global convergence of the developed velocity observer, RNN controller and cooperative tracking error are theoretically derived. Finally, under a fixed and variable communication topology, respectively, application in using a group of iiwa R800 redundant manipulators to transport a payload and comparison with the existing method are conducted. Among the simulative results, the robot group synchronously achieves the desired circle and rhodonea trajectory tracking, with higher tracking precision reaching to zero. When joint angles and joint velocities tend to exceed the setting constraints, respectively, they are constrained into the upper and lower bounds owing to the designed RNN controller. INDEX TERMS Velocity observer, multiple redundant manipulators, recurrent neural network, motion planning, zeroing neural network.

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A geometric accuracy analysis and tolerance robust design approach for a vertical machining center based on the reliability theory

Zheng

et al. 2020

Measurement

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The Distributed Maximum Power Point Tracking Method and Application in the PV Grid-Connected Generation

Zhao

Wang

et al. 2010

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Bi-criteria Acceleration Level Obstacle Avoidance of Redundant Manipulator

Zhao¹,

Chen³

et al. 2020

Front. Neurorobot.

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In this paper, an improved obstacle-avoidance-scheme-based kinematic control problem in acceleration level for a redundant robot manipulator is investigated. Specifically, the manipulator and obstacle are abstracted as mathematical geometries, based on the vector relationship between geometric elements, and the Cartesian coordinate of the nearest point to an obstacle on a manipulator can be found. The distance between the manipulator and an obstacle is described as the point-to-point distance, and the collision avoidance strategy is formulated as an inequality. To avoid the joint drift phenomenon of the manipulator, bi-criteria performance indices integrating joint-acceleration-norm minimization and repetitive motion planning is adopted by assigning a weighing factor. From the perspective of optimization, therefore, an acceleration level quadratic programming (QP) problem is eventually formulated. Considering the physical structure of robot manipulators, inherent joint angle, speed, and acceleration limits are also incorporated. To solve the resultant QP minimization problem, a recurrent neural network based neural dynamic solver is proposed. Then, simulation experiments performing on a four-link planar manipulator validate the feasibility and effectiveness of the proposed scheme.

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Xiaoxiao Li

Cooperative Kinematic Control for Multiple Redundant Manipulators Under Partially Known Information Using Recurrent Neural Network

A geometric accuracy analysis and tolerance robust design approach for a vertical machining center based on the reliability theory

The Distributed Maximum Power Point Tracking Method and Application in the PV Grid-Connected Generation

Bi-criteria Acceleration Level Obstacle Avoidance of Redundant Manipulator

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