In this thesis, a feet mechanism design and a standing balance control are proposed for an adult-sized biped robot. In feet mechanism design, the feet mechanism total weight is below 1 kg. A wave spring is used to reduce spring height as a cushioning material, and some force sensors are used to measure position of forces movement. In balance control, Kalman filter is utilized to determine the zero moment point (ZMP) in standing for robot and the ZMP is used to be an input variable of a controller. When the ZMP deviates from a desired position, the motor rotates the mechanism to a balance posture. The developed balance control system can calculate a required offset angle of biped robot to maintain balance. Finally, some experimental results are presented for the adult-sized biped robot via standing stable and moving waist. The ZMP position can be controlled within the expected range. Thus, the proposed feet mechanism and standing balance controller with sensors can efficiently control to balance in standing maintenance of the adult-sized biped robot.