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Aeroengine Blade Surface Defect Detection System Based on Improved Faster RCNN

Aiming at the difficulty of automatic blade detection and the discontinuous defects on the full image, an aeroengine blade surface defect detection system based on improved faster RCNN is designed. Firstly, a dataset of blade surface defects is constructed. To solve the problem that the original faster RCNN is hard to detect tiny defects, RoI align is adopted to replace RoI pooling in the improved faster RCNN and the feature pyramid networks (FPN) combined with ResNet‐50 are introduced for feature extraction. To address the issue of discontinuous defects on the full image, the nonmaximum suppression (NMS) algorithm is improved to ensure the continuity of defects. A four‐degree‐of‐freedom (4‐DOF) motion platform and an industrial camera are used to collect images of blade surfaces. The detection results generated by the improved faster RCNN are compared with the results of the unimproved method. The experimental results prove that the defect detection system based on the improved faster RCNN can realize automatic defect detection on the blade surface with high accuracy. It also solves the issues of tiny defect detection and discontinuous defects on the full result image of the blade.

Wiley

Liu Yixuan Wu Dongbo Liang Jiawei Wang Hui

International Journal of Intelligent Systems

2023

Title: Aeroengine Blade Surface Defect Detection System Based on Improved Faster RCNN

Description:

Aiming at the difficulty of automatic blade detection and the discontinuous defects on the full image, an aeroengine blade surface defect detection system based on improved faster RCNN is designed.

Firstly, a dataset of blade surface defects is constructed.

To solve the problem that the original faster RCNN is hard to detect tiny defects, RoI align is adopted to replace RoI pooling in the improved faster RCNN and the feature pyramid networks (FPN) combined with ResNet‐50 are introduced for feature extraction.

To address the issue of discontinuous defects on the full image, the nonmaximum suppression (NMS) algorithm is improved to ensure the continuity of defects.

A four‐degree‐of‐freedom (4‐DOF) motion platform and an industrial camera are used to collect images of blade surfaces.

The detection results generated by the improved faster RCNN are compared with the results of the unimproved method.

The experimental results prove that the defect detection system based on the improved faster RCNN can realize automatic defect detection on the blade surface with high accuracy.

It also solves the issues of tiny defect detection and discontinuous defects on the full result image of the blade.

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Aeroengine Blade Surface Defect Detection System Based on Improved Faster RCNN

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