In this work, we presented an intelligent tactile sensing array system deployed on a human-walk-assisting robot. Two sets of tactile sensing arrays were installed on the handlebar of the robot. The tactile sensing elements on the sensor array measures the pressure force, and the two-dimensional force distribution can be rendered based on the geometric arrangement of the sensor array installed on the handlebar. The proposed sensing system generates the command to the motion driving system of the robot according to the measured force distribution. The algorithm for effectively estimating the intention of users was also developed for ensuring smooth transition of robot locomotion. In addition, a fabrication process for realizing large area conducting polymer films using in the sensing array system was also presented. A universal applicator was employed to create conducting polymer films with micro-dome structures transferred from nylon membrane filters. The micro-dome structures on the polymer film are essential for tactile sensing with high sensitivity. The proposed tactile sensing system was installed on a human-walk-assisting robot. It was demonstrated that the manipulation of the robot can be smoothly controlled by using this sensing system.