This thesis develops an automated device that can assist Neuro-Developmental Treatment (NDT) training. The rehabilitation expenditure for stroke patients is a heavy load to the society and individuals. NDT training is a way to let patients have the feeling on walking with minimal intervention, and it is shown to be an effective rehabilitation method for stroke patients. During the NDT training, the therapists need to stabilize the patients’ trunk and pelvis, to stimulate the weight shift and pelvic rotation, and to assist the limb control during the stance and swing phases to increase their walking ability. Therefore, NDT training is very labor-intensive for therapists. Consequently, patients normally receive insufficient NDT gait training and delay rehabilitation processes because of the lack of therapist’s assistance. Hence, this thesis develops a machine-aided NDT gait trainer to relief the therapists’ working loads and to improve the rehabilitation effects of stroke patients. First, we measure the position and force data from clinical NDT gait training, and develop an expert system. Second, we develop motor mechanisms to repeat the therapists’ action based on the expert system. In order to improve the system responses, we derive the transfer functions of the motor system by experiments, and we design PID controller and robust controllers. Finally, we invite testing subjects for NDT gait training. We define performance indexes to discuss the rehabilitation results by the designed NDT trainer. The results indicate that the proposed device is deemed effective in improving NDT training.