A personal mobility system with a self-adjusting center of gravity is designed to aid agricultural work. This personal mobility system can assist elderly and disabled people with mobility problems to perform simple agricultural tasks. Simulations and experiments were performed using a 2.5-times reduced model of the personal mobility system, and the feasibility and effectiveness of the proposed system were verified. With the initial position of the center of gravity of the personal mobility system as the set value, the proportional-integral-derivative control of the counterweight motion is coordinated horizontally using two corresponding motors and the center of gravity of the system is controlled within a certain range of the set value. The experimental transition time is 10.8 s and the simulated transition time is 10.4 s. The error between the two is 3.85 %. The results demonstrate that the proposed adaptive control system achieves adaptive adjustment of the center of gravity.