End-Point Contact Force Control with Quantitative Feedback Theory for Mobile Robots

Robot force control is an important issue for intelligent mobile robotics. The end‐point stiffness of a robot is a key and open problem in the research community. The control strategies are mostly dependent on both the specifications of the task and the environment of the robot. Due to the limited stiffness of the end‐ effector, we may adopt inherent torque to feedback the oscillations of the controlled force. This paper proposes an effective control strategy which contains a controller using quantitative feedback theory. The nested loop controllers take into account the physical limitation of the system’s inner variables and harmful interference. The biggest advantage of the method is its simplicity in both the design process and the implementation of the control algorithm in engineering practice. Taking the one‐link manipulator as an example, numerical experiments are carried out to verify the proposed control method. The results show the satisfactory performance.