用于可靠和通用的外固定架的机器人框架位移分析

The 4th Annual IEEE International Conference on Cyber Technology in Automation, Control and Intelligent Pub Date : 2014-06-04 DOI:10.1109/CYBER.2014.6917457

I. Akcali, E. Avşar, M. K. Un, A. Aydın, T. Ibrikci, H. Mutlu, O. S. Bicer, C. Ozkan, A. Durmaz

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引用次数: 7

摘要

外固定架广泛应用于骨科治疗畸形和骨折。获得机械基础设施的历史趋势已经从简单的装置，如销钉，杆和铰链转向更复杂的框架，包括平行操纵器。尽管这种机器人框架具有优势，特别是在消除刚度问题方面，但这些现代设备的可靠部署仍然存在问题。本文处理了奇点、碎片沿不同轨迹引导的可能性等问题。给出了一种检测碎片位移、对齐和中间位置奇点的方法。研究了机器人系统如何根据不同的功能来驱动，以及它们对远端碎片端轨迹的影响。这些考虑已在数值实例上得到了证明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Displacement analysis of robotic frames for reliable and versatile use as external fixator

External fixators are widely used in the area of orthopedics to manage deformities and fractures. The historical trend in obtaining a mechanical infrastructure has shifted from simple devices like pins, rods, and hinges to more sophisticated frames involving parallel manipulators. Despite advantages of such robotic frames especially in removing stiffness issues, there are still problems associated with the reliable deployment of these modern devices. Problems like singularity, possibilities of guiding fragments along many different trajectories have been handled in this paper. A method has been shown how to detect singularity in displaced, aligned, and intermediate positions of the fragments. How the robotic system could be actuated according to different functions have been investigated, in addition to their effects on trajectories of distal fragment end. These considerations have been demonstrated on numerical examples.

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The 4th Annual IEEE International Conference on Cyber Technology in Automation, Control and Intelligent

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