Crack Detection And Refinement Via Deep Reinforcement Learning
Jinhyung Park, Yi-Chun Chen, Yu-Jhe Li, Kris Kitani
-
SPS
IEEE Members: $11.00
Non-members: $15.00Length: 00:08:18
Detecting small cracks in concrete is difficult due to the complexity and thinness of cracking patterns, which requires the development of refined vision-based segmentation algorithms that can accurately characterize the details of crack defects. While existing methods are good at generally outlining cracks, due to inherent differences in shape distributions between common objects and cracks, their predictions often have disconnected segments and inaccuracy along boundaries. To this end, we develop a refinement framework using reinforcement learning (RL) that can better recognize details specific to cracks. Our method uses an RL agent to iteratively improve per-pixel crack predictions of a general segmentation model. We find that in addition to connecting gaps in predictions, the RL agent is also able to detect cracks that are missed in the original predictions. It does so by using the originally detected regions as crack priors to branch out from. Refining outputs of a commonly used per-pixel segmentation model, our method outperforms the current state-of-the-art approaches for crack segmentation. Our experiments also demonstrate that our method generalizes well to a similar task of vessel segmentation.