Intelligent pneumatic assisted therapy on ankle rehabilitation

This research presents the design and development of a new strategy for an ankle rehabilitation system. The developed ankle rehabilitation system can be used as Continuous Passive Motion (CPM) device and strength endurance training device for early stage functional rehabilitation. The designed mechanism can allow desired maximum and minimum Range of Motion (ROM) for dorsiflexion and plantar flexion (upwards and downwards stretching). This device consists of new moveable mechanism design prototype using a new double acting Intelligent Pneumatic Actuator (IPA), embedded Predictive Functional Control with Observer (PFC-O) algorithm and MODBUS communication protocol. The drive system consists of nonlinear moving pneumatic actuator that controls the angle position, force and compliance for stiffness characteristic of the ankle-foot orthosis platform. In addition, the device can be configured through Graphical User Interface (GUI) via personal computer where user can adjust the required ROM and resistance for the user in real-time. Analysis carried out during the system validation and testing through selected subjects are presented and discussed. This ankle rehabilitation system is expected to substitute the traditional therapy and motorized rehabilitation device to increase the heal time of the patient specifically.