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A Single-Stage Enhancement-Identification Framework for Pipeline MFL Inspection

Jian Feng, Xinbo Zhang, Senxiang Lu, Feiran Yang

2022IEEE Transactions on Instrumentation and Measurement21 citationsDOI

Abstract

Magnetic flux leakage (MFL) inspection, one of the nondestructive testing methods, has been widely applied in pipeline maintenance. In pipeline MFL data processing, defect identification is a crucial step, which aims at measuring the locations of defect MFL signals in MFL heat maps. MFL signals collected from the pipeline are not ideal, containing noise and interference. In this case, measuring the locations of defect MFL signals, especially the locations of weak defect MFL signals, is a challenge. To address this challenge, an enhancement process is required to coordinate with the identification process. In this manuscript, two separated processes, enhancement and identification, are integrated into a single-stage framework, aiming at improving the defect identification performance through strengthening the differences between defect signal areas and pipe wall signal areas. The proposed framework can enhance the defect areas purposefully, and ignore the noise and interference in non-defect areas, which promotes the measuring effect for locations of defect MFL signals. In the proposed method, an enhancement module is constructed to upsample the MFL heat maps, and the resolution of feature maps in the framework is increased to 288×600. A novel loss function is designed, and the gray value contrast between defect signal areas and pipe wall signal areas in MFL heat maps is enhanced from 10 to 48 approximately through task-oriented joint training. The proposed method achieves 0.967 AP, and the identification accuracy is improved to 97.3%. In addition, the average deviations of identified defect signals are reduced by around 2mm - 9mm, and the uncertainties are reduced to 0.27mm - 0.35mm. The experiment results validate the superiority of the proposed framework in industrial applications.

Topics & Concepts

Magnetic flux leakagePipeline (software)SIGNAL (programming language)Noise (video)Interference (communication)EngineeringNondestructive testingSignal processingIdentification (biology)AcousticsElectronic engineeringComputer scienceArtificial intelligenceMechanical engineeringElectrical engineeringMagnetPhysicsChannel (broadcasting)Programming languageBotanyQuantum mechanicsDigital signal processingBiologyImage (mathematics)Non-Destructive Testing TechniquesUltrasonics and Acoustic Wave PropagationWelding Techniques and Residual Stresses
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