【 摘 要 】

Ultrasound (US) imaging remains one of the most commonly used imaging modalities in medical practice due to its low cost and safety. However, 63-91% of ultrasonographers develop musculoskeletal disorders due to the effort required to perform imaging tasks. Robotic ultrasound (RUS), the application of robotic systems to assist ultrasonographers in ultrasound scanning procedures, has been proposed in literature and recently deployed in clinical settings using limited degree-of-freedom (DOF) systems. An example of this includes breast-scanning systems, which allow one-DOF translation of a large ultrasound array in order to capture patients’ breast scans and minimize sonographer effort while preserving a desired clinical outcome. Recently, the robotic industry has evolved to provide light-weight, compact, accurate, and cost-effective manipulators. We leverage this new reality in able to provide ultrasonographers with a full 6-DOF system that provides force assistance to facilitate US image acquisition.Admittance robot control allows for smooth human-machine interaction in a desired task. In the case of RUS, force control is capable of assisting sonographers in facilitating and even improving the imaging results of typical procedures. We propose a new system setup for collaborative force control in US applications. This setup consists of the 6-DOF UR5 industrial robot, and a 6-axes force sensor attached to the robot tooltip, which in turn has an US probe attached to it through a custom-designed probe attachment mechanism. Additionally, an independent one-axis load cell is placed inside this attachment device and used to measure the contact force between the probe and the patient’s anatomy in real time and independent of any other forces. As the sonographer guides the US probe, the robot collaborates with the hand motions, following the path of the user. When imaging, the robot can offer assistance to the sonographer by augmenting the forces applied by him or her, thereby lessening the physical effort required as well as the resulting strain. Additional benefits include force and velocity limiting for patient safety and robot motion constraints for particular imaging tasks. Initial results of a conducted user study show the feasibility of implementing the presented robot-assisted system in a clinical setting.

【 预 览 】

附件列表

Files	Size	Format	View
CO-ROBOTIC ULTRASOUND IMAGING: A COOPERATIVE FORCE CONTROL APPROACH	3205KB	PDF	download