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      KCI등재 SCIE SCOPUS

      Structural damage detection in continuum structures using successive zooming genetic algorithm

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      https://www.riss.kr/link?id=A104817831

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      다국어 초록 (Multilingual Abstract)

      This study utilizes the fine-tuning and small-digit characteristics of the successive zooming genetic algorithm (SZGA) to propose a method of structural damage detection in a continuum structure, where the differences in the natural frequencies of a s...

      This study utilizes the fine-tuning and small-digit characteristics of the successive zooming genetic algorithm (SZGA) to propose a method of structural damage detection in a continuum structure, where the differences in the natural frequencies of a structure obtained by experiment and FEM are

      compared and minimized using an assumed location and extent of structural damage. The final methodology applied to the structural damage detection is a kind of pseudo-discrete-variable-algorithm that counts the soundness variables as one (perfectly sound) if they are above a certain standard, such as 0.99. This methodology is based on the fact that most well-designed structures exhibit failures at some critical point due to manufacturing error, while the remaining region is free of damage. Thus, damage of 1% (depending on the given standard) or less can be neglected, and the search concentrated on finding more serious failures. It is shown that the proposed method can find out the exact structural damage of the monitored structure and reduce the time and amount of computation.

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      참고문헌 (Reference)

      1 Choi, C.K., "Two-dimensional nonconforming finite elements:A state-of-the-art" 6 (6): 41-61, 1998

      2 Zienckiewicz, O.C., "The Finite Element Method for Solid and Structure Mechanics sixth ed" ELSEVIER. 2005

      3 Kwon, H.W., "Successive zooming genetic algorithm in structural damage detection of truss bridge" 2007

      4 Koh, B.H., "Structural health monitoring for flexible bridge structures using correlation and sensitivity of modal data" 85 : 117-130, 2007

      5 Wang, X., "Structural damage identification using static test data and changes in frequencies" 23 : 610-621, 2001

      6 Hajela, P., "Structural damage detection based on static and modal analysis" 28 (28): 1110-1115, 1990

      7 Oh, B.H., "Structural damage assessment with combined data of static and modal tests" 124 (124): 956-965, 1998

      8 Yeo, I.H., "Statistical damage assessment of framed structures from static responses" 126 (126): 414-421, 2000

      9 Huang, H.C., "Static and Dynamic Analyses of Plates and Shells Theory, Software and Applications" Springer-Verlag 1989

      10 Zhao, J., "Sensitivity study for vibrational parameters used in damage detection" 125 (125): 410-416, 1999

      1 Choi, C.K., "Two-dimensional nonconforming finite elements:A state-of-the-art" 6 (6): 41-61, 1998

      2 Zienckiewicz, O.C., "The Finite Element Method for Solid and Structure Mechanics sixth ed" ELSEVIER. 2005

      3 Kwon, H.W., "Successive zooming genetic algorithm in structural damage detection of truss bridge" 2007

      4 Koh, B.H., "Structural health monitoring for flexible bridge structures using correlation and sensitivity of modal data" 85 : 117-130, 2007

      5 Wang, X., "Structural damage identification using static test data and changes in frequencies" 23 : 610-621, 2001

      6 Hajela, P., "Structural damage detection based on static and modal analysis" 28 (28): 1110-1115, 1990

      7 Oh, B.H., "Structural damage assessment with combined data of static and modal tests" 124 (124): 956-965, 1998

      8 Yeo, I.H., "Statistical damage assessment of framed structures from static responses" 126 (126): 414-421, 2000

      9 Huang, H.C., "Static and Dynamic Analyses of Plates and Shells Theory, Software and Applications" Springer-Verlag 1989

      10 Zhao, J., "Sensitivity study for vibrational parameters used in damage detection" 125 (125): 410-416, 1999

      11 S. El-Borgi, "Modal identification and model updating of a reinforced concrete bridge" 국제구조공학회 1 (1): 83-101, 2005

      12 Krishnakumar, K., "Micro-genetic algorithms for stationary and non-stationary function optimization" 1196 : 289-296, 1989

      13 MSC.MARC, "Manual Volume A: Theory and User Information chapter 7"

      14 MSC.NASTRAN, "Linear Static Analysis User’s Guide MSC.Software Corporation"

      15 Dieterle, Frank, "Genetic algorithms and neural networks for the quantitative analysis of ternary mixtures using surface plasmon resonance" 65 : 67-81, 2003

      16 Chou, J.H., "Genetic algorithm in structural damage detection" 79 : 1335-1353, 2001

      17 Jin, K.G., "Genetic Algorithms and Their Applications" Kyowoosa 2000

      18 Bathe, K.J., "Finite Element Procedure in Engineering Analysis" Prentice-Hall. 1982

      19 Oreta, A.W.C., "Element identification of member properties of framed structures" 120 (120): 1961-1975, 1994

      20 ANSYS Manual, "Electromagnetic Analysis Guide. ANSYS Release 11.0, SAS IP, Inc"

      21 Cerria, M.N., "Detection of localized damage in plane circular arches by frequency data" 270 : 39-59, 2004

      22 Rao, M.A., "Damage detection in vibrating bodies using genetic algorithms" 82 : 963-968, 2004

      23 Fanning, P.J., "Damage detection based on single-input-single-output measurements" 129 (129): 202-209, 2003

      24 Kim, H.M., "Damage detection and health monitoring of large space structures" 27 (27): 12-17, 1993

      25 Kwon, Y.D., "Convergence rate of the successive zooming genetic algorithm using optimal control parameters" 5 (5): 1200-1207, 2006

      26 Kwon, Y.D., "Convergence enhanced genetic algorithm with successive zooming method for solving continuous optimization problems" 81 : 1715-1725, 2003

      27 Yu, L., "Application of eigenvalue perturbation theory for detecting small structural damage using dynamic responses" 78 : 402-409, 2007

      28 ABAQUS Manual, "Analysis User’s Manual Vol. II: Analysis. Version 6.4, Habbitt, Karlsson & Sorensen, section 6.2.1"

      29 Kwon, Y.D., "An improvement of bending characteristics for degenerated shell element by modification of gauss integration weights" 23 (23): 1328-1337, 1999

      30 Holland, J.H., "Adaptation in Natural and Artificial Systems" University of Michigan 1975

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      2021-12-01 평가 등재후보 탈락 (해외등재 학술지 평가)
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      2005-06-16 학회명변경 영문명 : Ternational Association Of Structural Engineering And Mechanics -> International Association of Structural Engineering And Mechanics KCI등재
      2005-05-26 학술지명변경 한글명 : 국제구조계산역학지 -> Structural Engineering and Mechanics, An Int'l Journal KCI등재
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