Deep learning-based methods in structural reliability analysis: a review

Abstract: One of the most significant and growing research fields in mechanical and civil engineering is Structural Reliability Analysis (SRA). A reliable and precise SRA usually has to deal with complicated , aand numerically expensive problems. Artificial intelligence-based (AI) nd specifically, Deep learning-based (DL) methods, have been applied to the SRA problems to reduce the computational cost and to improve the accuracy of reliability estimation as well. This article reviews the recent advances in using DL model… Show more

“…Looking back over the 2023 issues, review articles have remained prominent with articles covering smart optical coordinate and surface metrology [3], linear and nonlinear dimensionality reduction from fluid mechanics to machine learning [4], guided ultrasonic wave propagation imaging [5], mechanical ventilation based on machine learning [6], deep learning-based methods in structural reliability analysis [7], 3D optical measurement techniques [8], the application of Josephson voltage standards [9], combustion of metal particles [10], heterogeneous sensing for target tracking [11], quantitative gas property measurements by filtered Rayleigh scattering [12], optical fiber reflectometry detecting static and dynamic Rayleigh spectra [13], stimulated emission depletion microscopy [14], mechanical fault diagnosis based on deep transfer learning [15] and advanced combustion dynamics [16].…”

Measurement Science and Technology’s second century underway

“…Looking back over the 2023 issues, review articles have remained prominent with articles covering smart optical coordinate and surface metrology [3], linear and nonlinear dimensionality reduction from fluid mechanics to machine learning [4], guided ultrasonic wave propagation imaging [5], mechanical ventilation based on machine learning [6], deep learning-based methods in structural reliability analysis [7], 3D optical measurement techniques [8], the application of Josephson voltage standards [9], combustion of metal particles [10], heterogeneous sensing for target tracking [11], quantitative gas property measurements by filtered Rayleigh scattering [12], optical fiber reflectometry detecting static and dynamic Rayleigh spectra [13], stimulated emission depletion microscopy [14], mechanical fault diagnosis based on deep transfer learning [15] and advanced combustion dynamics [16].…”

Measurement Science and Technology’s second century underway

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