News Release

Application of impedance sliding mode control combined with stiffness scheduling in rehabilitation robot systems

Peer-Reviewed Publication

Beijing Institute of Technology Press Co., Ltd

Upper limb rehabilitation robot system

image: 

Impedance Sliding-Mode Control Based on Stiffness Scheduling for Rehabilitation Robot Systems

view more 

Credit: Cyborg and Bionic Systems

In recent years, rehabilitation robots have become increasingly popular in the field of healthcare, able to mimic the movements of a therapist and enhance patients' mobility through carefully designed control methods. A team from the Automation College of Beijing Institute of Technology, led by Kexin Hu, Zhongjing Ma, Suli Zou, Jian Li, and Haoran Ding, in collaboration with collaborators from the University College London, has recently proposed a novel impedance sliding mode control method that combines stiffness scheduling technology, which has brought significant advancements to rehabilitation robot systems.

This research has broken through the limitations of traditional rehabilitation robot control methods, which often rely on fixed or variable impedance control with no consideration for the patient's condition and health status. The proposed impedance sliding mode control combined with stiffness scheduling method is not only suitable for active and passive rehabilitation training modes, but also addresses the problem of model-based sliding mode control, reducing system uncertainty caused by limb tremors.

The innovative aspect of this method is its ability to automatically adjust the damping parameters of the rehabilitation robot based on the patient's applied force. This stiffness scheduling rule ensures that rehabilitation training is more tailored to the patient's health status, providing a more personalized and efficient rehabilitation experience. The researchers employed a model-free sliding mode control strategy to further enhance the system's robustness and adaptability.

To validate the feasibility and stability of the method, the research team conducted rehabilitation training experiments on a rehabilitation robot. Experimental results have demonstrated the effectiveness of the proposed method, providing new ideas and methods for the development of rehabilitation robot systems.

The findings of this research are significant for the future development of rehabilitation robotics. By combining advanced impedance sliding mode control and stiffness scheduling technology, rehabilitation robots can provide more personalized and effective rehabilitation training, thereby improving patient outcomes and quality of life. This research also demonstrates the potential of combining advanced control techniques with rehabilitation robots to address the challenges facing the healthcare industry in providing efficient and cost-effective rehabilitation services.

The paper, "Impedance Sliding-Mode Control Based on Stiffness Scheduling for Rehabilitation Robot Systems," was published in the journal Cyborg and Bionic Systems on Jun 1, 2024, at DOI: https://doi/10.34133/cbsystems.0099


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.