Litcius/Paper detail

Whole-Body Control of an Autonomous Mobile Manipulator Using Model Predictive Control and Adaptive Fuzzy Technique

Wang Yuan, Yonghua Liu, Chun‐Yi Su, Feng Zhao

2022IEEE Transactions on Fuzzy Systems45 citationsDOI

Abstract

Whole-body control (WBC) has emerged as an important framework in manipulation for mobile manipulators. However, most existing WBC frameworks require known dynamics. Considering whole-body manipulation and optimization with unknown dynamics, this article presents the WBC of a nonholonomic mobile manipulator using model predictive control (MPC) and fuzzy logic system. First, by constructing a dynamics-based feedback linearized robotic multi-input-multi-output (MIMO) system, an MPC-based WBC strategy is proposed for mobile manipulator. Such a strategy can provide the optimal control inputs with the specified optimization index and constraints. Thereafter, a primal-dual neural network effectively addresses the constrained quadratic programming (QP) problem over a finite receding horizon brought by the MPC. Then, in order to convert the intermediate control signals into the optimal control torques that can be executed by actuators, an adaptive FLS is employed to approximate the unknown dynamics. The novel elements of the current design control approach refer to the dynamics-based feedback linearized robotic MIMO system and the combination of an MPC module with an adaptive fuzzy controller. Finally, the trajectory tracking experiments performed on a mobile dual-arm robot demonstrate the effectiveness of the proposed method.

Topics & Concepts

Control theory (sociology)Model predictive controlMIMOMobile manipulatorTrajectoryComputer scienceQuadratic programmingControl engineeringController (irrigation)Nonholonomic systemFuzzy control systemFuzzy logicOptimal controlAdaptive controlMobile robotEngineeringRobotControl (management)Mathematical optimizationMathematicsArtificial intelligenceAstronomyComputer networkBiologyAgronomyPhysicsChannel (broadcasting)Robotic Locomotion and ControlProsthetics and Rehabilitation RoboticsRobotic Path Planning Algorithms