首页 /研究 /A Motion Transmission Model for a Class of Tendon-Based Mechanisms With Application to Position Tracking of the da Vinci Instrument
SURGICAL

A Motion Transmission Model for a Class of Tendon-Based Mechanisms With Application to Position Tracking of the da Vinci Instrument

Farshad Anooshahpour, Peyman Yadmellat, Ilia G. Polushin, Rajni V. Patel

发表年份
2019
引用次数
13

摘要

Tendon-based motion/force transmission is a conventional approach in the design of surgical robots. However, due to compliance in the tendons and significant frictions between the tendons, the pulleys, and the sheath, tendon-based systems exhibit highly nonlinear behavior that, in particular, includes hysteresis. In this paper, based on the concepts of creep theory in belt drive mechanics, a novel motion transmission model is developed for tendon-pulley mechanisms. The developed model is of pseudokinematic type; specifically, it relates the output displacement to both the input displacement and the input force. The model parameters are identified for a da Vinci instrument, and the model performance is experimentally evaluated. The experimental results demonstrate greater than 50% improvement in terms of root-mean-square position error as compared to a more conventional friction/compliance-free kinematic model. The model is subsequently used for position control of the tip of the instrument, resulting in elimination of the hysteresis and in accurate trajectory tracking.

关键词

PulleyDisplacement (psychology)KinematicsPosition (finance)Control theory (sociology)Nonlinear systemHysteresisTrajectoryTendonTracking (education)

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