He Xingchi, Gehlbach Peter, Handa James, Taylor Russell, Iordachita Iulian
Mechanical Engineering Department, Johns Hopkins University, Baltimore, MD 21218, USA.
Department of Ophthalmology, Johns Hopkins School of Medicine, Baltimore, MD 21287, USA. Dr. Handa is the Robert Bond Welch Professor.
Proc IEEE RAS EMBS Int Conf Biomed Robot Biomechatron. 2014 Aug;2014:252-258. doi: 10.1109/BIOROB.2014.6913785.
Lack of force sensing is one of the most formidable technical challenges in retinal microsurgery. Incorporating high sensitivity force sensing into the ophthalmic tools has the potential to provide the surgeon useful force feedback and to enable safe robotic assistance. This paper presents a new design of a three degrees of freedom force sensing instrument based on fiber Bragg grating sensors. A new flexure is developed to achieve high axial force sensing sensitivity and low crosstalk noise. The force sensing segment of the tool, located directly proximal to the tool tip, is ø0.9×8 mm. An extensive calibration shows that the force sensor can measure the transverse and axial force up to 21 mN with 0.5 mN and 3.3 mN accuracy, respectively. The new flexure design demonstrates the potential to improve axial force sensing. Analysis of the experiment results suggests improvements for the future iteration.
缺乏力感测是视网膜显微手术中最严峻的技术挑战之一。将高灵敏度力感测集成到眼科工具中,有可能为外科医生提供有用的力反馈,并实现安全的机器人辅助。本文提出了一种基于光纤布拉格光栅传感器的三自由度力感测仪器的新设计。开发了一种新型挠曲结构,以实现高轴向力感测灵敏度和低串扰噪声。该工具的力感测部分位于工具尖端的正近端,尺寸为ø0.9×8毫米。广泛的校准表明,该力传感器可分别以0.5毫牛和3.3毫牛的精度测量高达21毫牛的横向力和轴向力。新型挠曲设计展示了改善轴向力感测的潜力。对实验结果的分析为未来的迭代改进提供了建议。