Defect Detection System Based on UAV Images for Wind Turbine Blades

ZHAO Chunyi; GUO Hongtao; GUO Tao; LIANG Guo; JING Haicheng

Volume 42 Issue 12

Dec. 2020

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ZHAO Chunyi, GUO Hongtao, GUO Tao, LIANG Guo, JING Haicheng. Defect Detection System Based on UAV Images for Wind Turbine Blades[J]. Infrared Technology , 2020, 42(12): 1203-1210.

Citation:

ZHAO Chunyi, GUO Hongtao, GUO Tao, LIANG Guo, JING Haicheng. Defect Detection System Based on UAV Images for Wind Turbine Blades[J]. Infrared Technology , 2020, 42(12): 1203-1210.

ZHAO Chunyi, GUO Hongtao, GUO Tao, LIANG Guo, JING Haicheng. Defect Detection System Based on UAV Images for Wind Turbine Blades[J]. Infrared Technology , 2020, 42(12): 1203-1210.

Citation:

ZHAO Chunyi, GUO Hongtao, GUO Tao, LIANG Guo, JING Haicheng. Defect Detection System Based on UAV Images for Wind Turbine Blades[J]. Infrared Technology , 2020, 42(12): 1203-1210.

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Defect Detection System Based on UAV Images for Wind Turbine Blades

SPIC Northeast New Energy Development Co., Ltd., Shenyang 110000, China

Received Date: 2020-04-04
Rev Recd Date: 2020-05-18
Publish Date: 2020-12-26

Abstract

Abstract

This study proposes and designs an automatic defect detection system based on UAV images for wind turbine blades, aimed at alleviating problems with manual detection methods, such as low efficiency and inaccurate defect detection. This paper introduces the system's image acquisition system, acquisition method, defect detection principle, and detection result. This system uses a UAV as the flying carrier to realize automatic inspection of wind turbine blades, thereby improving the inspection efficiency and reducing the manual workload. Through image segmentation and defect detection algorithm design, automatic detection of suspicious defect areas is achieved. Double light fusion of visible and infrared light improves the accuracy of automatic blade defect recognition. After multiple field tests and verification, the system is shown to accurately and quickly realize the automatic identification and detection of defects, such as bulges, cracks, and wrinkles.
- UAV,
- wind turbine blade,
- defect defection,
- image processing

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References(6)

References

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