A Motion Control of Soft Gait Assistive Suit by Gait Phase Detection Using Pressure Information

• Main Authors: Tetsuro Miyazaki, Toshihiro Tagami, Daisuke Morisaki, Ryoken Miyazaki, Toshihiro Kawase, Takahiro Kanno, Kenji Kawashima
• Format: Article
• Language: English
• Published: MDPI AG 2019-07-01
• Series: Applied Sciences
• Subjects: power assistive device; pneumatic artificial rubber muscle; soft gait assistive suit; gait phase detection
• Online Access: https://www.mdpi.com/2076-3417/9/14/2869

Power assistive devices have been developed in recent years. To detect the wearer’s motion, conventional devices require users to wear sensors. However, wearing many sensors increases the wearing time, and usability of the device will become worse. We developed a soft gait assistive suit actuated by pneumatic artificial rubber muscles (PARMs) and proposed its control method. The proposed suit is easy to wear because the attachment unit does not have any electrical sensors that need to be attached to the trainee’s body. A target application is forward walking exercise on a treadmill. The control unit detects the pre-swing phase in the gait cycle using the pressure information in the calf back PARMs. After the detection, the suit assists the trainee’s leg motion. The assist force is generated by the controlled PARM pressure, and the pressure input time is changed appropriately considering the gait cycle time. We conducted walking experiments; (1) verifies the proposed control method works correctly, and (2) verifies whether the gait assistive suit is effective for decreasing muscular activity. Finally, we confirmed that the accurate phase detection can be achieved by using the proposed control method, and the suit can reduce muscular activity of the trainee’s leg.