Abstract
BackgroundThere is an increasing trend in using robots for medical purposes. One specific area is rehabilitation. Rehabilitation is one of the non-drug treatments in community health which means the restoration of the abilities to maximize independence. It is a prolonged work and costly labor. On the other hand, by using the flexible and efficient robots in rehabilitation area, this process will be more useful for handicapped patients.MethodsIn this study, a rule-based intelligent control methodology is proposed to mimic the behavior of a healthy limb in a satisfactory way by a 2-DOF planar robot. Inverse kinematic of the planar robot will be solved by neural networks and control parameters will be optimized by genetic algorithm, as rehabilitation progress.ResultsThe results of simulations are presented by defining a physiotherapy simple mode on desired trajectory. MATLAB/Simulink is used for simulations. The system is capable of learning the action of the physiotherapist for each patient and imitating this behaviour in the absence of a physiotherapist that can be called robotherapy.ConclusionsIn this study, a therapeutic exercise planar 2-DOF robot is designed and controlled for lower-limb rehabilitation. The robot manipulator is controlled by combination of hybrid and adaptive controls. Some safety factors and stability constraints are defined and obtained. The robot is stopped when the safety factors are not satisfied. Kinematics of robot is estimated by an MLP neural network and proper control parameters are achieved using GA optimization.
Highlights
There is an increasing trend in using robots for medical purposes
The main purpose of the developed system in this study is to introduce a low-cost system to satisfy the patient safety by a flexible structure controlled by an intelligent control strategy
The desired trajectory of manipulator obtained from the physiotherapist and the related variables of the robot such as angles and velocity of them are computed based on inverse kinematic problem
Summary
There is an increasing trend in using robots for medical purposes. One specific area is rehabilitation. Rehabilitation is one of the non-drug treatments in community health which means the restoration of the abilities to maximize independence. It is a prolonged work and costly labor. By using the flexible and efficient robots in rehabilitation area, this process will be more useful for handicapped patients. The process of strengthening muscles to their normal values is a costly labor which requires time and patience [1] There are many exercise machines for rehabilitation purposes like CPMs [2] These machines are used only for ankle function and because of their low degree of freedom, their poor dynamic efficiency. The suggested system can be used for rehabilitation of two limbs/joints (knee and hip)
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