An Open Source Computer Vision and Machine Learning Framework for Affordable Life Science Robotic Automation
arXiv cs.RO / 3/24/2026
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Key Points
- The paper introduces an open-source framework that combines computer vision and machine learning inverse kinematics to support affordable life-science robotic automation tasks like colony picking and liquid handling.
- It uses a custom-trained U-Net for semantic segmentation of microbial cultures and a Mixture Density Network to predict joint angles for a low-cost 5-DOF robot arm.
- The authors validate the system on a modified robot arm equipped with a liquid-handling end-effector and report mean positional error under 1 mm and joint angle prediction errors below 4 degrees.
- For vision performance, the framework achieves colony detection metrics including IoU of 0.537 and Dice coefficient of 0.596, demonstrating practical feasibility for repeatable operations.
- By targeting low-cost laboratory use cases, the work lowers the barrier to deploying ML-driven perception and control in life science automation workflows.
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