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المؤلفQidwai, Uvais A.
تاريخ الإتاحة2024-05-07T05:40:01Z
تاريخ النشر2009
اسم المنشورIEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
المصدرScopus
المعرّفhttp://dx.doi.org/10.1109/TUFFC.2009.1356
الرقم المعياري الدولي للكتاب8853010
معرّف المصادر الموحدhttp://hdl.handle.net/10576/54716
الملخصIn this paper, a customized classifier is presented for the industry-practiced nondestructive evaluation (NDE) protocols using a hybrid-fuzzy inference system (FIS) to classify the corrosion and distinguish it from the geometric defects or normal/healthy state of the steel pipes used in the gas/petroleum industry. The presented system is hybrid in the sense that it utilizes both soft computing through fuzzy set theory, as well as conventional parametric modeling through H ? optimization methods. Due to significant uncertainty in the power spectral density of the noise in ultrasonic NDE procedures, the use of optimal H 2 estimators for defect characterization is not so accurate. A more appropriate criterion is the H ? norm of the estimation error spectrum which is based on minimization of the magnitude of this spectrum and hence produces more robust estimates. A hybrid feature set is developed in this work that corresponds to a) geometric features extracted directly from the raw ultrasonic A-scan data (which are the ultrasonic echo pulses in 1-D traveling inside the metal perpendicular to its 2 surfaces) and b) mapped features from the impulse response of the estimated model of the defect waveform under study. An experimental strategy is first outlined, through which the necessary data are collected as A-scans. Then, using the H ? estimation approach, a parametric transfer function is obtained for each pulse. In this respect, each A-scan is treated as output from a defining function when a pure/healthy metal's A-scan is used as its input. Three defining states are considered in the paper; healthy, corroded, and defective, where the defective class represents metal with artificial or other defects. The necessary features are then calculated and are then supplied to the fuzzy inference system as input to be used in the classification. The resulting system has shown excellent corrosion classification with very low misclassification and false alarm rates.
اللغةen
الناشرIEEE
الموضوعCorrosion detection
Defect characterization
Estimated model
Estimation errors
Experimental strategy
False alarm rate
Fuzzy classifiers
Fuzzy inference systems
Geometric defects
Geometric feature
Hybrid features
Misclassifications
Non destructive evaluation
Optimization method
Parametric modeling
Robust estimate
Scan data
Ultrasonic echo
Ultrasonic NDE
Ultrasonic nondestructive evaluation
Wave forms
Classifiers
Corrosion
Defects
Estimation
Fuzzy inference
Fuzzy sets
Impulse response
Martensitic stainless steel
Optimization
Smelting
Soft computing
Spectral density
Ultrasonic testing
Ultrasonics
Fuzzy set theory
steel
algorithm
article
automated pattern recognition
chemistry
computer assisted diagnosis
corrosion
echography
evaluation
fuzzy logic
gas
materials testing
methodology
Algorithms
Corrosion
Fuzzy Logic
Gases
Image Interpretation, Computer-Assisted
Materials Testing
Pattern Recognition, Automated
Steel
Ultrasonography
العنوانAutonomous corrosion detection in gas pipelines: A hybrid-fuzzy classifier approach using ultrasonic nondestructive evaluation protocols
النوعArticle
الصفحات2650-2665
رقم العدد12
رقم المجلد56
dc.accessType Abstract Only


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