Department of Mechanical Engineering, Bucknell University, 701 Moore Ave, Lewisburg, PA 17837, USA.
Int J Comput Assist Radiol Surg. 2011 Sep;6(5):693-8. doi: 10.1007/s11548-011-0555-7. Epub 2011 Apr 2.
Position tracking is an important aspect of many computer-aided surgical techniques. Given the obstacles of current optical, electromagnetic, and mechanical systems for medical applications, this work investigates error reduction in a new mechanical tracking system developed for arthroscopic hip surgery. This new tracking linkage addresses the current contradictory requirements of a thin, small linkage for ease of surgical use and a large, bulky linkage for increased accuracy by using (1) kinematic redundancy and (2) data averaging and curve fitting.
To reduce the position error in the proposed mechanical tracking linkage, four numerical techniques were applied to data from the linkage. Two averaging techniques and two curve fitting techniques were investigated. After implementing each numerical technique, error testing was performed to quantify improvement in performance.
While the simple average and moving average techniques lowered the error by over 30%, these two methods were undesirable for the overall system performance. The lowest error was measured by the linear curve prediction method. This technique measured 0.552 mm of error, roughly half of the error measured by the control case. The quadratic prediction method reduced the error by 35% and had the lowest standard deviation in the measurements.
The linear prediction technique was able to significantly lower the error measured by a kinematically redundant mechanical tracking linkage. While further testing is still necessary, this data suggests that a thin, small mechanical tracking linkage could achieve a high level of accuracy to be an appropriate choice for a surgical tracking application.
位置跟踪是许多计算机辅助手术技术的重要方面。鉴于当前用于医疗应用的光学、电磁和机械系统存在障碍,本研究旨在研究一种新的机械跟踪系统在关节镜髋关节手术中的误差减少情况。这种新的跟踪链接通过使用(1)运动学冗余和(2)数据平均和曲线拟合,解决了当前对于轻便、小巧的链接以方便手术使用和对于更大、更笨重的链接以提高准确性的相互矛盾的要求。
为了减少所提出的机械跟踪链接中的位置误差,将四种数值技术应用于链接的数据中。研究了两种平均技术和两种曲线拟合技术。在实施每种数值技术后,进行误差测试以量化性能的提高。
虽然简单平均和移动平均技术将误差降低了 30%以上,但这两种方法对于整个系统性能来说并不理想。线性曲线预测方法测量的误差最小。该技术测量的误差为 0.552 毫米,大约是对照情况下测量的误差的一半。二次预测方法将误差降低了 35%,并且在测量中具有最低的标准偏差。
线性预测技术能够显著降低运动学冗余机械跟踪链接测量的误差。虽然仍需要进一步测试,但这些数据表明,薄而小的机械跟踪链接可以达到高精度,成为手术跟踪应用的合适选择。
