Unifying Obstacle Avoidance and Tracking Control of Redundant Manipulators Subject to Joint Constraints: A New Data-Driven Scheme

IF 5 3区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Peng Yu;Ning Tan;Zhaohui Zhong;Cong Hu;Binbin Qiu;Changsheng Li
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引用次数: 0

Abstract

In modern manufacturing, redundant manipulators have been widely deployed. Performing a task often requires the manipulator to follow specific trajectories while avoiding surrounding obstacles. Different from most existing obstacle-avoidance (OA) schemes that rely on the kinematic model of redundant manipulators, in this article, we propose a new data-driven obstacle-avoidance (DDOA) scheme for the collision-free tracking control of redundant manipulators. The OA task is formulated as a quadratic programming problem with inequality constraints. Then, the objectives of obstacle avoidance and tracking control are unitedly transformed into a computation problem of solving a system including three recurrent neural networks. With the Jacobian estimators designed based on zeroing neural networks, the manipulator Jacobian and critical-point Jacobian can be estimated in a data-driven way without knowing the kinematic model. Finally, the effectiveness of the proposed scheme is validated through extensive simulations and experiments.
受联合约束的冗余机械手的统一避障和跟踪控制:数据驱动的新方案
在现代制造业中,冗余机械手得到了广泛应用。在执行任务时,机械手往往需要遵循特定的轨迹,同时避开周围的障碍物。与大多数依赖冗余机械手运动学模型的现有避障(OA)方案不同,本文提出了一种新的数据驱动避障(DDOA)方案,用于冗余机械手的无碰撞跟踪控制。OA 任务被表述为一个带不等式约束的二次编程问题。然后,避障目标和跟踪控制目标被统一转化为一个计算问题,即求解一个包括三个递归神经网络的系统。利用基于归零神经网络设计的雅各布估计器,可以在不知道运动学模型的情况下,以数据驱动的方式估计操纵器雅各布和临界点雅各布。最后,通过大量的模拟和实验验证了所提方案的有效性。
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来源期刊
CiteScore
7.20
自引率
10.00%
发文量
170
期刊介绍: The IEEE Transactions on Cognitive and Developmental Systems (TCDS) focuses on advances in the study of development and cognition in natural (humans, animals) and artificial (robots, agents) systems. It welcomes contributions from multiple related disciplines including cognitive systems, cognitive robotics, developmental and epigenetic robotics, autonomous and evolutionary robotics, social structures, multi-agent and artificial life systems, computational neuroscience, and developmental psychology. Articles on theoretical, computational, application-oriented, and experimental studies as well as reviews in these areas are considered.
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