手持式显微手术器械消除活动性震颤的研究

C. Riviere, W. T. Ang, P. Khosla
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引用次数: 247

摘要

本文介绍了提高显微外科手术精度的主动器械的研究。目的是使准确性的提高对外科医生尽可能透明。我们没有使用机械臂,而是采用了一种新的方法来开发一种手持式仪器,它可以感知自己的运动,区分想要的和不想要的运动,并偏转其尖端来对不想要的部分进行主动补偿。因此,研究需要在仪器运动的量化和建模,震颤和其他错误运动的滤波算法,以及手持式机电系统的开发来执行主动误差补偿方面进行工作。本文介绍了本研究开发的系统,并给出了初步成果。
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Toward active tremor canceling in handheld microsurgical instruments
This paper describes research in active instruments for enhanced accuracy in microsurgery. The aim is to make accuracy enhancement as transparent to the surgeon as possible. Rather than using a robotic arm, we have taken the novel approach of developing a handheld instrument that senses its own movement, distinguishes between desired and undesired motion, and deflects its tip to perform active compensation of the undesired component. The research has therefore required work in quantification and modeling of instrument motion, filtering algorithms for tremor and other erroneous movements, and development of handheld electromechanical systems to perform active error compensation. The paper introduces the systems developed in this research and presents preliminary results.
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