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    * SurRoL: RL-Centered and dVRK Compatible Platform for Surgical Robot Learning [website](https://med-air.github.io/SurRoL/)<br>
    * Surgical Gym: A high-performance GPU-based platform for surgical robot learning (ICRA 2024, work in progress, based on NVIDIA Omniverse): [website](https://github.com/SamuelSchmidgall/SurgicalGym)<br>
    * ORBIT-Surgical: An Open-Simulation Framework for Learning Surgical Augmented Dexterity  (ICRA 2024, based on NVIDIA Omniverse): [website](https://orbit-surgical.github.io/)<br>
+    * 缝合是手术机器人操作中的一个关键子任务，实现其自主化已有多项研究。关于自主缝合技能操作的综述可参考: <website>(https://link.springer.com/article/10.1007/s00464-024-10788-w)<br>

 * 连续体和软体手术机器人作为柔性医疗机器人的重要分支, 凭借其独特的结构设计和材料特性, 在微创介入诊疗领域展现出显著优势。它们能够灵活进入人体狭窄腔体, 实现精准操作, 同时最大限度地减小手术创口, 降低患者术后恢复时间及感染风险, 为现代微创手术提供了创新性的技术解决方案。
  * 连续体机器人在医疗领域的应用 (Nabil Simaan; Howie Choset等): [Continuum Robots for Medical Interventions](https://ieeexplore.ieee.org/abstract/document/9707607)<br>