Intelligent Sensing Technologies for Nondestructive Evaluation

© 2019 by the authors; CC BY license

electromagnetic acoustic transducer; EMAT; NDT; Lamb wave; magnetostriction; PRFECT; ANSYS software; LSSVR; zero-crossing time; double sensing coils; Wiener deconvolution filter; zero-mean normalization; infrared thermography; NDT; microwave thermography; volumetric heating; material; temperature monitoring sensor; motion compensation; infrared thermography; pulsed laser scanning; ultrasonic waves; plate-like structures; crack; corrosion; edge detection; flexible ultrasonic transducer; laser ultrasonic technique; laser ultrasonic visualization; material characterization; defect detection; Non-destructive testing; high temperature measurement; electromagnetic nondestructive evaluation; gradient-field pulsed eddy current inspection; subsurface corrosion; analytical modeling; corrosion imaging; uniform field excitation; load cell; optical fiber sensor; pre-stressed concrete; monitoring; pre-stress; damage; tensile force estimation; embedded EM sensor; PS Tendon; B-H loop measurement; PSC girder; multi-element sensor; eddy current; CFRP characterization; nondestructive testing (NDT); electromagnetic field computation; FEM modeling; negative curvature fiber; hollow core fiber; multiphoton fluorescence; photonic crystal fiber sensor; ultrasonic phased array; scheduling algorithm; FIFOs; multi-group sensors; FPGA; bandwidth utilization; thermal insulation material; electrical capacitance tomography; defect detection; image reconstruction; PSO; deep foundation; defect detection; extreme learning machine; neural network; non-destructive evaluation; pile integrity testing; wavelet decomposition; optical active infrared inspection; carbon fibre bicycle frame; nondestructive evaluation; magnetic analysis; magnetic sensors; nondestructive testing; scanning probe microscopy; SQUIDs; magnetic flux leakage; steel wire rope inspection; signal processing; damage quantification; artificial neural network; interdigital electrode (IDE); metallic materials; microwave near-field detection; surface notch-type damage