In this thesis, we use interval type-2 fuzzy to imitate the electric unicycle based on the first generation prototype in our laboratory. To enhance the goal of the balance control of electric unicycle, we have changed a part of hardware to speed up response and designed a balance controller via the concept of control of traditional inverted pendulum. We control the electric unicycle by the angle and angular velocity of electric unicycle. In this thesis, we compared four control algorithms including proportional-integral-derivative (PID) controller, type-1 fuzzy controller and interval type-2 fuzzy controller and imitate interval type-2 fuzzy controller. First, we compared type-1 fuzzy controller after the PID controller by positioning experiments. However, there are many uncertain noise and factors, so that the system motion is affected in the electric unicycle. In order to solve these problems, we use interval type-2 fuzzy controller. But computational process of fuzzy theorem that are more complexity, we proposed an imitate interval type-2 fuzzy controller, where the membership function are two gaussian functions, and its learning rate and error convergence are verified by the Lyapunov theory. In addition, we choose the imitate interval type-2 fuzzy controller as the main controller in this system. Finally, by the simulation and experimentation of electric unicycle, we compare all of controllers, respectively. From the results, the imitate interval type-2 fuzzy controller can be demonstrated that it not only has better performance for control and balance, but also good computational speed.