摘要The wheeled bipedal robots have great application potential in environments with a mixture of structured and unstructured terrain.However,wheeled bipedal robots have problems such as poor balance ability and low movement level on rough roads.In this paper,a novel and low-cost wheeled bipedal robot with an asymmetrical five-link mechanism is proposed,and the kinematics of the legs and the dynamics of the Wheeled Inverted Pendulum(WIP)are modeled.The primary bal-ance controller of the wheeled bipedal robot is built based on the Linear Quadratic Regulator(LQR)and the compensation method of the virtual pitch angle adjusting the Center of Mass(CoM)position,then the whole-body hybrid torque-position control is established by combining attitude and leg controllers.The stability of the robot's attitude control and motion is verified with simulations and prototype experiments,which confirm the robot's ability to pass through complex terrain and resist external interference.The feasibility and reliability of the proposed control model are verified.