In human environments, biped robots are expected to walk on various types of ground surfaces. Balance control during bipedal walking on uneven terrain is a challenging problem. This thesis proposes a novel gait compensating control method that uses sensory data tracking to allow a robot to keep balance and walk on sloping surfaces. The real-time compensation control system adjusts the gait and makes online sensory data to track stored target sensory data, which are obtained from the robot when it walks on a flat surface. When the robot adjusts its gait and makes online sensory data similar to that for a flat surface, it achieves a stable walking pose. The proposed method is tested for several slopes and different walking trajectories, using the NAO robot. The robot automatically adjusts its pose on an unknown sloping surface, using the proposed method. Furthermore, experiments with transitional slopes further verify that the method can be extended to more general terrain variations.