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The performance of a hospital's sterile processing center (SPC) significantly impacts patient safety and overall productivity. Key to automating this process is to reliably transport instruments throughout the process. In this paper, we detail a robust integrated system for enabling mobile robots to autonomously perform manipulation of assets; specifically, transporting reusable surgical instrument...
In this paper, we introduced a robotic system using a humanoid robot, Baxter research robot, to pick-up surgical tools from a tray and place the tools into different trays according to the types of the surgical tools. The pick-n-place manipulation is integrated with a vision component and a special magnet gripper and governed by a finite state machine. This vision-based manipulation system allows...
We developed a unique robotic manipulation system that accurately singulates surgical instruments in a cluttered environment. A novel single-view computer vision algorithm identifies the next instrument to grip from a cluttered pile and a compliant electromagnetic gripper picks up the identified instrument. System is validated through extensive experiments.
The logistics of counting, sorting, sterilizing, and transporting surgical instruments is labor and capital intensive. Furthermore, infection due to improper sterilization is a critical safety hazard. To address these problems, we have developed a unique robotic manipulation system that is capable of accurately singulating surgical instruments in a cluttered environment. Our solution is comprised...
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