开发辅助孕妇超声波检查的机器人超声波系统

IF 3.4 Q2 ENGINEERING, BIOMEDICAL
Maria Bamaarouf;Flavien Paccot;Laurent Sarry;Hélène Chanal
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引用次数: 0

摘要

本研究论文的核心是解决临床医生在超声波检查过程中面临的一个常见问题,即与工作相关的肌肉骨骼疾病(WRMSDs)。利用远程操作辅助、协作支持甚至自主系统,机器人超声检查有可能减少这些疾病的发生。在本研究中,我们介绍了一种新的协作辅助系统,该系统专门为肥胖孕妇的超声波检查而设计。其主要目的是设计一种透明的协同操作策略,使临床医生能够在手术过程中保持自然的手势。这种方法背后的关键原则是确保机器人作为辅助工具发挥作用,而不会干扰检查过程。为此,我们开发了一种新颖的协同操纵控制策略,其中包括根据操作员的互动计算虚拟实体的路径。与传统的控制技术相比,这种方法具有诸多优势。它提高了精确度,缩短了任务执行时间,促进了更直观的参数调整过程,并减少了操作员的用力。因此,它有可能成为应对超声技师所面临挑战的可行解决方案。因此,通过与阻抗和主动顺应性控制策略的比较,实验证明了这种新型协同操控方法的潜在优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a Robotic Ultrasound System to Assist Ultrasound Examination of Pregnant Women
This research paper centers on addressing a common issue faced by clinicians during ultrasound examinations, namely work-related musculoskeletal disorders (WRMSDs). The implementation of robotic ultrasound has the potential to reduce these disorders using teleoperated assistance, collaborative support, or even autonomous systems. In this study, we introduce a new collaborative assisting system specifically designed for ultrasound examinations involving pregnant, obese patients. The primary objective is to devise a transparent co-manipulation strategy that enables clinicians to maintain their natural gestures during the procedure. The key principle behind this approach is to ensure that the robot functions as a helpful tool without interfering with the examination process. To achieve this, a novel co-manipulation control strategy is developed, which involves the computation of a virtual solid’s path based on the operator’s interaction. This approach presents numerous benefits in comparison to conventional control techniques. It demonstrates improvements in terms of accuracy, diminishes task execution time, facilitates a more intuitive parameter adjustment process, and necessitates less exertion of force by the operator. Consequently, it could potentially serve as a viable solution for addressing the challenges faced by sonographers. Hence, the potential benefit of this new co-manipulation method is demonstrated experimentally by comparison with impedance and active compliance control strategies.
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CiteScore
6.80
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