Obstacle avoidance technology of bionic quadruped robot based on multi-sensor information fusion

In order to improve the ability of a bionic quadruped robot to percept the location of obstacles in a complex and dynamic environment,the information fusion between an ultrasonic sensor and a binocular sensor was studied under the condition that the robot moves in the Walk gait on a structured road.Firstly,the distance information of obstacles from these two sensors was separately processed by the Kalman filter algorithm,which largely reduced the noise interference.After that,we obtained two groups of estimated distance values from the robot to the obstacle and a variance of the estimation value.Additionally,a fusion of the estimation values and the variances was achieved based on the STF fusion algorithm.Finally,a simulation was performed to show that the curve of a real value was tracked well by that of the estimation value,which attributes to the effectiveness of the Kalman filter algorithm.In contrast to statistics before fusion,the fusion variance of the estimation value was sharply decreased.The precision of the position information is 4.6cm,which meets the application requirements of the robot.