The objective of this thesis is to design the prototype of a two-wheeled transporter for human beings. The research work includes the mechanical components design and manufacturing, structure analysis and simulation, choosing of electrical motors, drivers and battery, controller design, and electromechanical system integration.The forward and backward motions of the two-wheeled transporter are depended on the position of the center of gravity (COG) of the transporter. Therefore, an adjustable mechanism is designed to change the COG position of the transporter by a remote controller. The COG is changed by moving the steel block on the conveyor in order to simulate the real operating behavior of human beings on the transporter. DSP is the major controller of the entire system, which includes fuzzy control algorithm,motor control, A/D converter and signal process etc. A tilt sensor and gyro are used to measure the inclination angle and the angular velocity of the transporter. The input signals of the controller are inclination angle and angular velocity. A fuzzy controller is designed to control the stability of this transporter by the motor outputs.The major contribution of this thesis is to develop a two-wheeled transporter for human beings. A control device of the variable load is used to analyze dynamic moving behavior, and apply the fuzzy theory in controller design, and to simulate balance model of two-wheeled transporter.