Trajectory Tracking Control of an Amphibious Spherical Robot Using MPC Approach

Trajectory tracking control is a basic problem in rescue, detection and obstacle avoidance tasks. The trajectory tracking process has its own constraints, and the core of model predictive control is to solve the quadratic programming problem with constraints, so MPC is used to solve the trajectory tracking problem of amphibious spherical robot in this paper. Firstly, based on the 3-DOF dynamic state space equation of the robot, the model is approximately linearized and discretized to facilitate the design of controller. To solve the difficulty of adjusting the weight matrix of NIPC, an adaptive parameter adjustment method bawd on output error is designed in this paper. The linear trajectory and square trajectory are simulated on MATLAII and Gazebo simulation platform respectively. The simulation results verify the applicability and stability of the designed controller.