A novel hybrid approach for crack detection

Highlights：

• A distinctive approach to apply Faster R-CNN for the challenging task of crack detection by training it to detect crack patches of suitable SNR, and a semi-automatic method to annotate crack patches of suitable scales to train a Faster R-CNN.

• A new Bayesian integration algorithm based on local spatial proximity, orientation consistency and alignment consistency to connect associated neighboring crack patches and suppress false detections, as well as an efficient algorithm to learn the optimal parameters.

摘要

•A novel hybrid approach which integrates a Faster R-CNN for crack patch detection, a DCNN for crack orientation recognition, and a Bayesian algorithm for integration. It provides a novel framework to combine deep learning models and Bayesian analysis to address challenging vision problems where the deep learning approaches with simple end-to-end learning strategy might not be effective.•A distinctive approach to apply Faster R-CNN for the challenging task of crack detection by training it to detect crack patches of suitable SNR, and a semi-automatic method to annotate crack patches of suitable scales to train a Faster R-CNN.•A new Bayesian integration algorithm based on local spatial proximity, orientation consistency and alignment consistency to connect associated neighboring crack patches and suppress false detections, as well as an efficient algorithm to learn the optimal parameters.