End-to-End Deep Visual Control for Mastering Needle-Picking Skills With World Models and Behavior Cloning
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Needle picking is a challenging surgical task in robot-assisted surgery due to the characteristics of small slender shapes of needles, needles' variations in shapes and sizes, and demands for millimeter-level control. Prior works, heavily relying on the prior of needles (e.g., geometric models), are hard to scale to unseen needles' variations. In addition, visual tracking errors can not be minimized online using their approaches. In this paper, we propose an end-to-end deep visual learning framework for needle-picking tasks where both visual and control components can be learned jointly online. Our proposed framework integrates a state-of-the-art reinforcement learning framework, Dreamer, with behavior cloning (BC). Besides, two novel techniques, i.e., Virtual Clutch and Dynamic Spotlight Adaptation (DSA), are introduced to our end-to-end visual controller for needle-picking tasks. We conducted extensive experiments in simulation to evaluate the performance, robustness, variation adaptation, and effectiveness of individual components of our method. Our approach, trained by 8k demonstration timesteps and 140k online policy timesteps, can achieve a remarkable success rate of 80 with end-to-end vision-based surgical robot learning for delicate operations tasks. Furthermore, our method effectively demonstrated its superiority in generalization to unseen dynamic scenarios with needle variations and image disturbance, highlighting its robustness and versatility. Codes and videos are available at https://sites.google.com/view/dreamerbc.
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