This study is to design a control system for the electric wheelchair powered by rim motors (rim motor wheelchair). The goal of this study is to achieve the dynamic responses with short rise time, small overshoot and minimum-jerk in both regulation and tracking control of rim motors. The control system is based on master-slave architecture which consists of upper and lower controllers. Human-machine interface, joystick signal processing, wheelchair motion control, motor speed control, and the communication protocol are developed in this study. The desired speed of each motor is computed according to a steering algorithm in the upper controller, and the closed-loop speed control of motor is performed in lower controllers. We investigate speed performance of rim motors in open-loop control scheme and develop a closed-loop speed controller for the rim motors. The controllers are based on PID (proportional integral derivative) control. Besides, the improvements of control performance can be achieved by employing some techniques such as input feed forward, event-based sampling, and switching control strategy. The concept of event-based control used in the system is sensor-triggered rather than time-triggered, where the sensor triggering signal is from Hall sensors. And the purpose of switching control strategy is to apply an effective control method according to the operating conditions such as soft-start mode, tracking mode, and braking mode. The study focuses on the comparisons of performance between the developed one and the existed, under different testing conditions. The experimental results show that by using the speed controller developed in this study, magnitude of both overshoot and speed fluctuations are suppressed effectively and still maintained acceptable rise time. Furthermore, we construct a minimum-jerk velocity profile to provide a smooth reference velocity for wheelchair. This profile can be implemented in future systems. Finally, we follow the test items stated in CNS14964-6 to evaluate the performance of velocity and acceleration. Experimental result shows that based on the developed control system the rim motor wheelchair is competitive to another commercial electric wheelchair in the aspect of velocity and acceleration. Meanwhile, the items listed in the standard are fulfilled.