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      Structural damage identification with output-only measurements using modified Jaya algorithm and Tikhonov regularization method

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      https://www.riss.kr/link?id=A108545786

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      The absence of excitation measurements may pose a big challenge in the application of structural damage identification owing to the fact that substantial effort is needed to reconstruct or identify unknown input force. To address this issue, in this paper, an iterative strategy, a synergy of Tikhonov regularization method for force identification and modified Jaya algorithm (M-Jaya) for stiffness parameter identification, is developed for damage identification with partial output-only responses. On the one hand, the probabilistic clustering learning technique and nonlinear updating equation are introduced to improve the performance of standard Jaya algorithm. On the other hand, to deal with the difficulty of selection the appropriate regularization parameters in traditional Tikhonov regularization, an improved L-curve method based on B-spline interpolation function is presented. The applicability and effectiveness of the iterative strategy for simultaneous identification of structural damages and unknown input excitation is validated by numerical simulation on a 21-bar truss structure subjected to ambient excitation under noise free and contaminated measurements cases, as well as a series of experimental tests on a five-floor steel frame structure excited by sinusoidal force. The results from these numerical and experimental studies demonstrate that the proposed identification strategy can accurately and effectively identify damage locations and extents without the requirement of force measurements. The proposed M-Jaya algorithm provides more satisfactory performance than genetic algorithm, Gaussian bare-bones artificial bee colony and Jaya algorithm.
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      The absence of excitation measurements may pose a big challenge in the application of structural damage identification owing to the fact that substantial effort is needed to reconstruct or identify unknown input force. To address this issue, in this p...

      The absence of excitation measurements may pose a big challenge in the application of structural damage identification owing to the fact that substantial effort is needed to reconstruct or identify unknown input force. To address this issue, in this paper, an iterative strategy, a synergy of Tikhonov regularization method for force identification and modified Jaya algorithm (M-Jaya) for stiffness parameter identification, is developed for damage identification with partial output-only responses. On the one hand, the probabilistic clustering learning technique and nonlinear updating equation are introduced to improve the performance of standard Jaya algorithm. On the other hand, to deal with the difficulty of selection the appropriate regularization parameters in traditional Tikhonov regularization, an improved L-curve method based on B-spline interpolation function is presented. The applicability and effectiveness of the iterative strategy for simultaneous identification of structural damages and unknown input excitation is validated by numerical simulation on a 21-bar truss structure subjected to ambient excitation under noise free and contaminated measurements cases, as well as a series of experimental tests on a five-floor steel frame structure excited by sinusoidal force. The results from these numerical and experimental studies demonstrate that the proposed identification strategy can accurately and effectively identify damage locations and extents without the requirement of force measurements. The proposed M-Jaya algorithm provides more satisfactory performance than genetic algorithm, Gaussian bare-bones artificial bee colony and Jaya algorithm.

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      참고문헌 (Reference)

      1 Z. Zhang, "Uniformly sampled genetic algorithm with gradient search for structural identification – Part I: Global search" Elsevier BV 88 (88): 949-962, 2010

      2 Zhonghua Tang, "The determination of the regularization parameter based on signal-to-noise ratio in load identification" SAGE Publications 29 (29): 4479-4491, 2022

      3 Per Christian Hansen, "The Use of the L-Curve in the Regularization of Discrete Ill-Posed Problems" Society for Industrial & Applied Mathematics (SIAM) 14 (14): 1487-1503, 1993

      4 Y. Lei, "Synthesis of Cross-Correlation Functions of Partial Responses and the Extended Kalman Filter Approach for Structural Damage Detection Under Ambient Excitations" World Scientific Pub Co Pte Lt 18 (18): 1840003-, 2018

      5 Guangcai Zhang, "Structural system identification and damage detection using adaptive hybrid Jaya and differential evolution algorithm with mutation pool strategy" Elsevier BV 46 : 1313-1326, 2022

      6 Bin Xu, "Structural parameters and dynamic loading identification from incomplete measurements: Approach and validation" Elsevier BV 28 : 244-257, 2012

      7 Hongyuan Zhou, "Structural identification using improved butterfly optimization algorithm with adaptive sampling test and search space reduction method" Elsevier BV 33 : 2121-2139, 2021

      8 Zhenghao Ding, "Structural damage identification with uncertain modelling error and measurement noise by clustering based tree seeds algorithm" Elsevier BV 185 : 301-314, 2019

      9 Jun Li ; Hong Hao ; Juin Voon Lo, "Structural damage identification with power spectral density transmissibility: numerical and experimental studies" 국제구조공학회 15 (15): 15-40, 2015

      10 X. Wang, "Structural damage identification using static test data and changes in frequencies" Elsevier BV 23 (23): 610-621, 2001

      1 Z. Zhang, "Uniformly sampled genetic algorithm with gradient search for structural identification – Part I: Global search" Elsevier BV 88 (88): 949-962, 2010

      2 Zhonghua Tang, "The determination of the regularization parameter based on signal-to-noise ratio in load identification" SAGE Publications 29 (29): 4479-4491, 2022

      3 Per Christian Hansen, "The Use of the L-Curve in the Regularization of Discrete Ill-Posed Problems" Society for Industrial & Applied Mathematics (SIAM) 14 (14): 1487-1503, 1993

      4 Y. Lei, "Synthesis of Cross-Correlation Functions of Partial Responses and the Extended Kalman Filter Approach for Structural Damage Detection Under Ambient Excitations" World Scientific Pub Co Pte Lt 18 (18): 1840003-, 2018

      5 Guangcai Zhang, "Structural system identification and damage detection using adaptive hybrid Jaya and differential evolution algorithm with mutation pool strategy" Elsevier BV 46 : 1313-1326, 2022

      6 Bin Xu, "Structural parameters and dynamic loading identification from incomplete measurements: Approach and validation" Elsevier BV 28 : 244-257, 2012

      7 Hongyuan Zhou, "Structural identification using improved butterfly optimization algorithm with adaptive sampling test and search space reduction method" Elsevier BV 33 : 2121-2139, 2021

      8 Zhenghao Ding, "Structural damage identification with uncertain modelling error and measurement noise by clustering based tree seeds algorithm" Elsevier BV 185 : 301-314, 2019

      9 Jun Li ; Hong Hao ; Juin Voon Lo, "Structural damage identification with power spectral density transmissibility: numerical and experimental studies" 국제구조공학회 15 (15): 15-40, 2015

      10 X. Wang, "Structural damage identification using static test data and changes in frequencies" Elsevier BV 23 (23): 610-621, 2001

      11 A. Kaveh, "Structural damage identification using an enhanced thermal exchange optimization algorithm" Informa UK Limited 50 (50): 430-451, 2017

      12 Subhajit Das ; Nirjhar Dhang, "Structural damage identification of truss structures using self-controlled multi-stage particle swarm optimization" 국제구조공학회 25 (25): 345-368, 2020

      13 Akbar Esfandiari, "Structural damage detection using principal component analysis of frequency response function data" Hindawi Limited 27 (27): 2020

      14 Seyed Mohammad Seyedpoor ; Eshagh Norouzi ; Sara Ghasemi, "Structural damage detection using a multi-stage improved differential evolution algorithm (Numerical and experimental)" 국제구조공학회 21 (21): 235-248, 2018

      15 Songtao Xue, "Structural Damage Detection Using Auxiliary Particle Filtering Method" SAGE Publications 8 (8): 101-112, 2009

      16 Hao Sun, "Statistical Regularization for Identification of Structural Parameters and External Loadings Using State Space Models" Wiley 30 (30): 843-858, 2015

      17 Z.R. Lu ; J.K. Liu ; M. Huang, "State-space formulation for simultaneous identification of both damage and input force from response sensitivity" 국제구조공학회 8 (8): 157-172, 2011

      18 Zekeriya Aydın, "Size, layout and tendon profile optimization of prestressed steel trusses using Jaya algorithm" Elsevier BV 40 : 284-294, 2022

      19 V. Jayalakshmi, "Simultaneous identification of damage and input dynamic force on the structure for structural health monitoring" Springer Science and Business Media LLC 55 (55): 2211-2238, 2017

      20 Dongming Feng, "Simultaneous identification of bridge structural parameters and vehicle loads" Elsevier BV 157 : 76-88, 2015

      21 Ting-Hua Yi ; Hong-Nan Li ; Xu-Dong Zhang, "Sensor placement optimization in structural health monitoring using distributed monkey algorithm" 국제구조공학회 15 (15): 191-207, 2015

      22 P. Caravani, "Recursive Least-Squares Time Domain Identification of Structural Parameters" ASME International 44 (44): 135-140, 1977

      23 Kunjie Yu, "Parameters identification of photovoltaic models using an improved JAYA optimization algorithm" Elsevier BV 150 : 742-753, 2017

      24 Zhenghao Ding, "Parameter identification of airfoil systems using an elite-based clustering Jaya algorithm and incremental vibration responses" Springer Science and Business Media LLC 65 (65): 2022

      25 M. J. Perry, "Output‐only structural identification in time domain: Numerical and experimental studies" Wiley 37 (37): 517-533, 2008

      26 Xiaojuan Wang, "Output-only structural parameter identification with evolutionary algorithms and correlation functions" IOP Publishing 29 (29): 035018-, 2020

      27 Guangcai Zhang, "Output-only structural damage identification using hybrid Jaya and differential evolution algorithm with reference-free correlation functions" Elsevier BV 199 : 111591-, 2022

      28 Zhenghao Ding, "Non-probabilistic method to consider uncertainties in structural damage identification based on Hybrid Jaya and Tree Seeds Algorithm" Elsevier BV 220 : 110925-, 2020

      29 Hao Yang, "Multi-sensor technology for B-spline modelling and deformation analysis of composite structures" Elsevier BV 224 : 111000-, 2019

      30 Farrar, C. R., "Lessons learned from applications of vibration based damage identification methods to large bridge structure" 351-370, 1997

      31 R. Venkata Rao, "Jaya: A simple and new optimization algorithm for solving constrained and unconstrained optimization problems" Growing Science 19-34, 2016

      32 Ali Kaveh, "Improved Shuffled Jaya algorithm for sizing optimization of skeletal structures with discrete variables" Elsevier BV 29 : 107-128, 2021

      33 Dongming Feng, "Identification of structural stiffness and excitation forces in time domain using noncontact vision-based displacement measurement" Elsevier BV 406 : 15-28, 2017

      34 Hao Sun, "Identification of structural models using a modified Artificial Bee Colony algorithm" Elsevier BV 116 : 59-74, 2013

      35 Xinyu Zhou, "Gaussian bare-bones artificial bee colony algorithm" Springer Science and Business Media LLC 20 (20): 907-924, 2014

      36 V. Jayalakshmi, "Dynamic force reconstruction techniques from incomplete measurements" SAGE Publications 24 (24): 5321-5344, 2018

      37 Haitao Zhao, "Distributed Load Identification for Uncertain Structure Based on LHS-GA and Improved L-Curve Method" World Scientific Pub Co Pte Lt 18 (18): 2050022-, 2020

      38 Ali Kaveh ; Seyed Rohollah Hoseini Vaez ; Pedram Hosseini ; Narges Fallah, "Detection of damage in truss structures using Simplified Dolphin Echolocation algorithm based on modal data" 국제구조공학회 18 (18): 983-1004, 2016

      39 Lijun Liu, "Data fusion based EKF-UI for real-time simultaneous identification of structural systems and unknown external inputs" Elsevier BV 88 : 456-467, 2016

      40 Mohammad Hassan Daneshvar, "Damage identification of structural systems by modal strain energy and an optimization-based iterative regularization method" Springer Science and Business Media LLC 39 (39): 2067-2087, 2022

      41 Ali Kaveh ; Mohsen Maniat, "Damage detection based on MCSS and PSO using modal data" 국제구조공학회 15 (15): 1253-1270, 2015

      42 A. Kaveh, "Cyclical Parthenogenesis Algorithm for guided modal strain energy based structural damage detection" Elsevier BV 57 : 250-264, 2017

      43 Wang-Ji Yan, "Closed-form modal flexibility sensitivity and its application to structural damage detection without modal truncation error" SAGE Publications 20 (20): 1816-1830, 2013

      44 Ali Kaveh, "Boundary Strategy for Optimization-based Structural Damage Detection Problem using Metaheuristic Algorithms" Periodica Polytechnica Budapest University of Technology and Economics 2020

      45 Hamed Kalhori, "Automated algorithm for impact force identification using cosine similarity searching" Elsevier BV 122 : 648-657, 2018

      46 Ping‐He Ni, "An output‐only structural condition assessment method for civil structures by the stochastic gradient descent method" Hindawi Limited 29 (29): 2022

      47 A. Kaveh, "An improved CSS for damage detection of truss structures using changes in natural frequencies and mode shapes" Elsevier BV 80 : 93-100, 2015

      48 Yanbin Xu, "An adaptive Tikhonov regularization parameter choice method for electrical resistance tomography" Elsevier BV 50 : 1-12, 2016

      49 Raed Abu Zitar, "An Intensive and Comprehensive Overview of JAYA Algorithm, its Versions and Applications" Springer Science and Business Media LLC 29 (29): 763-792, 2021

      50 D. Dinh-Cong, "A two-stage multi-damage detection approach for composite structures using MKECR-Tikhonov regularization iterative method and model updating procedure" Elsevier BV 90 : 114-130, 2021

      51 Moisés Silva, "A novel unsupervised approach based on a genetic algorithm for structural damage detection in bridges" Elsevier BV 52 : 168-180, 2016

      52 Ting-Hua Yi ; Kai-Fang Wen ; Hong-Nan Li, "A new swarm intelligent optimization algorithm: Pigeon Colony Algorithm (PCA)" 국제구조공학회 18 (18): 425-448, 2016

      53 Xingsheng Sun, "A new improved regularization method for dynamic load identification" Informa UK Limited 22 (22): 1062-1076, 2013

      54 Kun Feng, "A kNN algorithm for locating and quantifying stiffness loss in a bridge from the forced vibration due to a truck crossing at low speed" Elsevier BV 154 : 107599-, 2021

      55 S. W. Doebling, "A Summary Review of Vibration-Based Damage Identification Methods" SAGE Publications 30 (30): 91-105, 1998

      56 Nengjian Wang, "A Novel Fractional Tikhonov Regularization Coupled with an Improved Super-Memory Gradient Method and Application to Dynamic Force Identification Problems" Hindawi Limited 2018 : 1-16, 2018

      57 Feng Gao, "A Kalman-filter based time-domain analysis for structural damage diagnosis with noisy signals" Elsevier BV 297 (297): 916-930, 2006

      58 Semi Emrah Aslay, "3D cost optimization of 3 story RC constructional building using Jaya algorithm" Elsevier BV 40 : 803-811, 2022

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