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A Comprehensive Control Method for Tendon–Sheath System Using Friction Model-Based Angle Estimation and Feedforward-Feedback Control in Time-Varying Configurations

Ye Lu, Huijun Li, Ke Shi, Jianwei Lai, Ye Li, Maozeng Zhang, Aiguo Song

2023IEEE Transactions on Industrial Electronics11 citationsDOI

Abstract

The tendon–sheath system (TSS) has emerged as a promising solution for force transmission in robot applications, owing to the lightweight, low inertia, and good flexibility. However, the performance of tension control is affected by the configuration-dependent nonlinearities, and achieving precise control of the distal force of TSS in time-varying configurations remains a challenge. To address this issue, this article proposes a comprehensive method combining feedforward and feedback control to enhance the control accuracy of TSS by estimating the bending angle in real time, even when the system configuration is unknown. A bending angle estimation approach based on a friction model is proposed, and an improved friction model is developed to simulate the nonlinear friction more accurately. Furthermore, a double-TSS transmission structure is designed to facilitate the integration of control and configuration feedback in mechanical systems. The experimental results confirm the effectiveness of the proposed method in enhancing force-tracking performance in unknown configurations.

Topics & Concepts

Feed forwardControl theory (sociology)InertiaControl systemFlexibility (engineering)Nonlinear systemEngineeringBendingTension (geology)Tracking (education)Computer scienceControl engineeringControl (management)Structural engineeringMaterials scienceArtificial intelligenceMathematicsPhysicsUltimate tensile strengthQuantum mechanicsStatisticsPsychologyMetallurgyElectrical engineeringPedagogyClassical mechanicsMuscle activation and electromyography studiesSoft Robotics and ApplicationsDynamics and Control of Mechanical Systems
A Comprehensive Control Method for Tendon–Sheath System Using Friction Model-Based Angle Estimation and Feedforward-Feedback Control in Time-Varying Configurations | Litcius