Your search keyword '"Ting-Hua Yi"' showing total 32 results

1. Canonical correlation analysis based fault diagnosis method for structural monitoring sensor networks

Author

Hai-Bin Huang, Ting-Hua Yi, and Hong-Nan Li

Subjects

Computer science, Multivariable calculus, 020101 civil engineering, Statistical model, Control engineering, 02 engineering and technology, Fault (power engineering), computer.software_genre, Fault detection and isolation, 0201 civil engineering, Computer Science Applications, 020303 mechanical engineering & transports, 0203 mechanical engineering, Control and Systems Engineering, Principal component analysis, Structural health monitoring, Data mining, Electrical and Electronic Engineering, Canonical correlation, Wireless sensor network, computer

Abstract

The health conditions of in-service civil infrastructures can be evaluated by employing structural health monitoring technology. A reliable health evaluation result depends heavily on the quality of the data collected from the structural monitoring sensor network. Hence, the problem of sensor fault diagnosis has gained considerable attention in recent years. In this paper, an innovative sensor fault diagnosis method that focuses on fault detection and isolation stages has been proposed. The dynamic or auto-regressive characteristic is firstly utilized to build a multivariable statistical model that measures the correlations of the currently collected structural responses and the future possible ones in combination with the canonical correlation analysis. Two different fault detection statistics are then defined based on the above multivariable statistical model for deciding whether a fault or failure occurred in the sensor network. After that, two corresponding fault isolation indices are deduced through the contribution analysis methodology to identify the faulty sensor. Case studies, using a benchmark structure developed for bridge health monitoring, are considered in the research and demonstrate the superiority of the new proposed sensor fault diagnosis method over the traditional principal component analysis-based and the dynamic principal component analysis-based methods.

Published

2016

2. Structural health monitoring of innovative civil engineering structures in Mainland China

Author

Hong-Nan Li, Ziguang Jia, Dongsheng Li, Liang Ren, Ting-Hua Yi, and Kun-Peng Li

Subjects

Mainland China, Engineering, business.industry, Engineering structures, 020101 civil engineering, 02 engineering and technology, 01 natural sciences, Civil engineering, Construction engineering, 0201 civil engineering, Identification (information), Software deployment, 0103 physical sciences, Structural health monitoring, Safety, Risk, Reliability and Quality, business, 010301 acoustics, Implementation, Civil and Structural Engineering

Abstract

This paper describes the backgrounds, motivations and recent history of structural health monitoring (SHM) developments to various types of engineering structures. Extensive applications of SHM technologies in bridges, high-rise buildings, sport avenues, offshore platforms, underground structures, dams, etc. in mainland China are summarily categorized and listed in tables. Sensors used in implementations, their deployment, damage identification strategies if applicable, preliminary monitoring achievements and experience are presented in the lists. Finally, existing problems and promising research efforts in civil SHM are discussed, highlighting challenges and future trends.

Published

2016

3. Optimal sensor placement under uncertainties using a nondirective movement glowworm swarm optimization algorithm

Author

Guang-Dong Zhou, Huan Zhang, Hong-Nan Li, and Ting-Hua Yi

Subjects

Mathematical optimization, Optimization problem, Computer simulation, Computer science, Glowworm swarm optimization, Hamming distance, Multi-objective optimization, Computer Science Applications, Control and Systems Engineering, Binary code, Structural health monitoring, Electrical and Electronic Engineering, Multi-swarm optimization, Algorithm

Abstract

Optimal sensor placement (OSP) is a critical issue in construction and implementation of a sophisticated structural health monitoring (SHM) system. The uncertainties in the identified structural parameters based on the measured data may dramatically reduce the reliability of the condition evaluation results. In this paper, the information entropy, which provides an uncertainty metric for the identified structural parameters, is adopted as the performance measure for a sensor configuration, and the OSP problem is formulated as the multi-objective optimization problem of extracting the Pareto optimal sensor configurations that simultaneously minimize the appropriately defined information entropy indices. The nondirective movement glowworm swarm optimization (NMGSO) algorithm (based on the basic glowworm swarm optimization (GSO) algorithm) is proposed for identifying the effective Pareto optimal sensor configurations. The one-dimensional binary coding system is introduced to code the glowworms instead of the real vector coding method. The Hamming distance is employed to describe the divergence of different glowworms. The luciferin level of the glowworm is defined as a function of the rank value (RV) and the crowding distance (CD), which are deduced by non-dominated sorting. In addition, nondirective movement is developed to relocate the glowworms. A numerical simulation of a long-span suspension bridge is performed to demonstrate the effectiveness of the NMGSO algorithm. The results indicate that the NMGSO algorithm is capable of capturing the Pareto optimal sensor configurations with high accuracy and efficiency.

Published

2015

4. Reliability-based assessment of steel bridge deck using a mesh-insensitive structural stress method

Author

Ting-Hua Yi, C. Wen, X.W. Ye, and Y.H. Su

Subjects

Engineering, business.industry, Probabilistic logic, Welding, Structural engineering, Orthotropic material, Finite element method, Computer Science Applications, law.invention, Control and Systems Engineering, law, Sensitivity (control systems), Electrical and Electronic Engineering, Material properties, business, Joint (geology), Reliability (statistics)

Abstract

This paper aims to conduct the reliability-based assessment of the welded joint in the orthotropic steel bridge deck by use of a mesh-insensitive structural stress (MISS) method, which is an effective numerical procedure to determine the reliable stress distribution adjacent to the weld toe. Both the solid element model and the shell element model are first established to investigate the sensitivity of the element size and the element type in calculating the structural stress under different loading scenarios. In order to achieve realistic condition assessment of the welded joint, the probabilistic approach based on the structural reliability theory is adopted to derive the reliability index and the failure probability by taking into account the uncertainties inherent in the material properties and load conditions. The limit state function is formulated in terms of the structural resistance of the material and the load effect which is described by the structural stress obtained by the MISS method. The reliability index is computed by use of the first-order reliability method (FORM), and compared with a target reliability index to facilitate the safety assessment. The results achieved from this study reveal that the calculation of the structural stress using the MISS method is insensitive to the element size and the element type, and the obtained structural stress results serve as a reliable basis for structural reliability analysis.

Published

2015

5. Health monitoring sensor placement optimization for Canton Tower using virus monkey algorithm

Author

Xu-Dong Zhang, Hong-Nan Li, and Ting-Hua Yi

Subjects

education.field_of_study, Engineering, business.industry, Population, Virus, Computer Science Applications, Local optimum, Control and Systems Engineering, Novel virus, Binary code, Structural health monitoring, Electrical and Electronic Engineering, education, business, Algorithm, Wireless sensor network, Coding (social sciences)

Abstract

Placing sensors at appropriate locations is an important task in the design of an efficient structural health monitoring (SHM) system for a large-scale civil structure. In this paper, a hybrid optimization algorithm called virus monkey algorithm (VMA) based on the virus theory of evolution is proposed to seek the optimal placement of sensors. Firstly, the dual-structure coding method is adopted instead of binary coding method to code the solution. Then, the VMA is designed to incorporate two populations, a monkey population and a virus population, enabling the horizontal propagation between the monkey and virus individuals and the vertical inheritance of monkey\'s position information from the previous to following position. Correspondingly, the monkey population in this paper is divided into the superior and inferior monkey populations, and the virus population is divided into the serious and slight virus populations. The serious virus is used to infect the inferior monkey to make it escape from the local optima, while the slight virus is adopted to infect the superior monkey to let it find a better result in the nearby area. This kind of novel virus infection operator enables the coevolution of monkey and virus populations. Finally, the effectiveness of the proposed VMA is demonstrated by designing the sensor network of the Canton Tower, the tallest TV Tower in China. Results show that innovations in the VMA proposed in this paper can improve the convergence of algorithm compared with the original monkey algorithm (MA).

Published

2015

6. Optimal sensor placement for health monitoring of high-rise structure based on collaborative-climb monkey algorithm

Author

Guang-Dong Zhou, Xu-Dong Zhang, Ting-Hua Yi, and Hong-Nan Li

Subjects

Speedup, Computer science, Mechanical Engineering, Process (computing), Swarm behaviour, Building and Construction, Mechanics of Materials, Convergence (routing), Structural health monitoring, Representation (mathematics), Wireless sensor network, Algorithm, Civil and Structural Engineering, Coding (social sciences)

Abstract

Optimal sensor placement (OSP) is an integral component in the design of an effective structural health monitoring (SHM) system. This paper describes the implementation of a novel collaborative-climb monkey algorithm (CMA), which combines the artificial fish swarm algorithm (AFSA) with the monkey algorithm (MA), as a strategy for the optimal placement of a predefined number of sensors. Different from the original MA, the dual-structure coding method is adopted for the representation of design variables. The collaborative-climb process that can make the full use of the monkeys\' experiences to guide the movement is proposed and incorporated in the CMA to speed up the search efficiency of the algorithm. The effectiveness of the proposed algorithm is demonstrated by a numerical example with a high-rise structure. The results show that the proposed CMA algorithm can provide a robust design for sensor networks, which exhibits superior convergence characteristics when compared to the original MA using the dual-structure coding method.

Published

2015

7. Multi-point displacement monitoring of bridges using a vision-based approach

Author

T. Liu, Ting-Hua Yi, Chuan-Zhi Dong, X.W. Ye, and H. Bai

Subjects

Engineering, Scale (ratio), business.industry, Linear variable differential transformer, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Measure (physics), Control engineering, Building and Construction, String searching algorithm, Displacement (vector), Modeling and Simulation, Digital image processing, Structural health monitoring, business, Reliability (statistics), Civil and Structural Engineering

Abstract

To overcome the drawbacks of the traditional contact-type sensor for structural displacement measurement, the vision-based technology with the aid of the digital image processing algorithm has received increasing concerns from the community of structural health monitoring (SHM). The advanced vision-based system has been widely used to measure the structural displacement of civil engineering structures due to its overwhelming merits of non-contact, long-distance, and high-resolution. However, seldom currently-available vision-based systems are capable of realizing the synchronous structural displacement measurement for multiple points on the investigated structure. In this paper, the method for vision-based multi-point structural displacement measurement is presented. A series of moving loading experiments on a scale arch bridge model are carried out to validate the accuracy and reliability of the vision-based system for multi-point structural displacement measurement. The structural displacements of five points on the bridge deck are measured by the vision-based system and compared with those obtained by the linear variable differential transformer (LVDT). The comparative study demonstrates that the vision-based system is deemed to be an effective and reliable means for multi-point structural displacement measurement.

Published

2015

8. Analysis of three-dimensional thermal gradients for arch bridge girders using long-term monitoring data

Author

Ting-Hua Yi, Huan Zhang, Guang-Dong Zhou, and Bin Chen

Subjects

Return period, business.industry, Probability density function, Structural engineering, Computer Science Applications, Arch bridge, Temperature gradient, Control and Systems Engineering, Girder, Thermal, Geotechnical engineering, Structural health monitoring, Electrical and Electronic Engineering, Extreme value theory, business, Geology

Abstract

Thermal loads, especially thermal gradients, have a considerable effect on the behaviors of large-scale bridges throughout their lifecycles. Bridge design specifications provide minimal guidance regarding thermal gradients for simple bridge girders and do not consider transversal thermal gradients in wide girder cross-sections. This paper investigates the three-dimensional thermal gradients of arch bridge girders by integrating long-term field monitoring data recorded by a structural health monitoring system, with emphasis on the vertical and transversal thermal gradients of wide concrete-steel composite girders. Based on field monitoring data for one year, the time-dependent characteristics of temperature and three-dimensional thermal gradients in girder cross-sections are explored. A statistical analysis of thermal gradients is conducted, and the probability density functions of transversal and vertical thermal gradients are estimated. The extreme thermal gradients are predicted with a specific return period by employing an extreme value analysis, and the profiles of the vertical thermal gradient are established for bridge design. The transversal and vertical thermal gradients are developed to help engineers understand the thermal behaviors of concrete-steel composite girders during their service periods.

Published

2015

9. Sensor placement optimization in structural health monitoring using distributed monkey algorithm

Author

Xu-Dong Zhang, Hong-Nan Li, and Ting-Hua Yi

Subjects

Control and Systems Engineering, Computer science, Large population, Harmony search, Structural health monitoring, Electrical and Electronic Engineering, Algorithm, Computer Science Applications, Coding (social sciences)

Abstract

Proper placement of sensors plays a key role in construction and implementation of an effective structural health monitoring (SHM) system. This paper proposes a novel methodology called the distributed monkey algorithm (DMA) for the optimum design of SHM system sensor arrays. Different from the existing algorithms, the dual-structure coding method is adopted for the representation of design variables and the single large population is partitioned into subsets and each subpopulation searches the space in different directions separately, leading to quicker convergence and higher searching capability. After the personal areas of all subpopulations have been finished, the initial optimal solutions in every subpopulation are extracted and reordered into a new subpopulation, and the harmony search algorithm (HSA) is incorporated to find the final optimal solution. A computational case of a high-rise building has been implemented to demonstrate the effectiveness of the proposed method. Investigations have clearly suggested that the proposed DMA is simple in concept, few in parameters, easy in implementation, and could generate sensor configurations superior to other conventional algorithms both in terms of generating optimal solutions as well as faster convergence.

Published

2015

10. Reviews on innovations and applications in structural health monitoring for infrastructures

Author

Linsheng Huo, Hong-Nan Li, Liang Ren, Ting-Hua Yi, and Dongsheng Li

Subjects

Damage detection, Placement method, Data acquisition, Standardization, Computer science, Systems engineering, Structural health monitoring, Safety, Risk, Reliability and Quality, Sensor fusion, Implementation, Field (computer science), Civil and Structural Engineering

Abstract

The developments and implementations of the structural health monitoring (SHM) system for large infrastructures have been gradually recognized by researchers, engineers and administrative authorities in the last decades. This paper summarizes an updated review on innovations and applications in SHM for infrastructures carried out by researchers at Dalian University of Technology. Invented sensors and data acquisition system are firstly briefly described. And then, some proposed theories and methods including the sensing technology, sensor placement method, signal processing and data fusion, system identification and damage detection are discussed in details. Following those, the activities on the standardization of SHM and several case applications on specific types of structure are reviewed. Finally, existing problems and promising research efforts in the field of SHM are given.

Published

2014

11. Wind-rain-induced vibration test and analytical method of high-voltage transmission tower

Author

Ting-Hua Yi, Shun-Yong Tang, and Hong-Nan Li

Subjects

Engineering, business.industry, Turbulence, Mechanical Engineering, Building and Construction, Structural engineering, Wind direction, Aeroelasticity, Vibration, Transmission (telecommunications), Mechanics of Materials, business, Tower, Civil and Structural Engineering, Transmission tower, Wind tunnel

Abstract

A new computational approach for the rain load on the transmission tower is presented to obtain the responses of system subjected to the wind and rain combined excitations. First of all, according to the similarity theory, the aeroelastic modeling of high-voltage transmission tower is introduced and two kinds of typical aeroelastic models of transmission towers are manufactured for the wind tunnel tests, which are the antelope horn tower and pole tower. And then, a formula for the pressure time history of rain loads on the tower structure is put forward. The dynamic response analyses and experiments for the two kinds of models are carried out under the wind-induced and wind-rain-induced actions with the uniform and turbulent flow. It has been shown that the results of wind-rain-induced responses are bigger than those of only wind-induced responses and the rain load influence on the transmission tower can`t be neglected during the strong rainstorm. The results calculated by the proposed method have a good agreement with those by the wind tunnel test. In addition, the wind-rain-induced responses along and across the wind direction are in the same order of response magnitude of towers.

Published

2013

12. Multi-dimensional sensor placement optimization for Canton Tower focusing on application demands

Author

Hong-Nan Li, Xiang Wang, and Ting-Hua Yi

Subjects

Mathematical optimization, Optimization problem, Computer Science Applications, symbols.namesake, Modal, Control and Systems Engineering, Robustness (computer science), symbols, Modal matrix, Linear independence, Structural health monitoring, Electrical and Electronic Engineering, Fisher information, Condition number, Simulation, Mathematics

Abstract

Optimal sensor placement (OSP) technique plays a key role in the structural health monitoring (SHM) of large-scale structures. According to the mathematical background and implicit assumptions made in the triaxial effective independence (EfI) method, this paper presents a novel multi-dimensional OSP method for the Canton Tower focusing on application demands. In contrast to existing methods, the presented method renders the corresponding target mode shape partitions as linearly independent as possible and, at the same time, maintains the stability of the modal matrix in the iteration process. The modal assurance criterion (MAC), determinant of the Fisher Information Matrix (FIM) and condition number of the FIM have been taken as the optimal criteria, respectively, to demonstrate the feasibility and effectiveness of the proposed method. Numerical investigations suggest that the proposed method outperforms the original EfI method in all instances as expected, which is looked forward to be even more pronounced should it be used for other multi-dimensional optimization problems.

Published

2013

13. Multi-stage structural damage diagnosis method based on 'energy-damage' theory

Author

Hong-Min Sun, Hong-Nan Li, and Ting-Hua Yi

Subjects

Multi stage, Control and Systems Engineering, Computer science, Nuclear engineering, Electrical and Electronic Engineering, Energy (signal processing), Computer Science Applications

Published

2013

14. Online damage detection using pair cointegration method of time-varying displacement

Author

Dongsheng Li, You-Xin Lin, Cui Zhou, Hong-Nan Li, and Ting-Hua Yi

Subjects

Engineering, Cointegration, business.industry, Magnitude (mathematics), Residual, Displacement (vector), Computer Science Applications, Noise, Control and Systems Engineering, Control theory, Control limits, Econometrics, Jump, Structural health monitoring, Electrical and Electronic Engineering, business

Abstract

Environmental and operational variables are inevitable concerns by researchers and engineers when implementing the damage detection algorithm in practical projects, because the change of structural behavior could be masked by the conditions in a large extent. Thus, reliable damage detection methods should have a virtue of immunity from environmental and operational variables. In this paper, the pair cointegration method was presented as a novel way to remove the effect of environmental variables. At the beginning, the concept and procedure of this approach were introduced, and then the theoretical formulation and numerical simulations were put forward to illustrate the feasibility. The jump exceeding the control limit in the residual indicates the occurrence of damage, while the direction and magnitude imply the most potential damage location. In addition, the simulation results show that the proposed method has strong ability to resist the noise.

Published

2013

15. Wavelet based multi-step filtering method for bridge health monitoring using GPS and accelerometer

Author

Ting-Hua Yi, Ming Gu, and Hong-Nan Li

Subjects

Engineering, business.industry, Stationary wavelet transform, Wavelet transform, Accelerometer, Bridge (nautical), Computer Science Applications, Deformation monitoring, Wavelet, Control and Systems Engineering, Electronic engineering, Global Positioning System, Electrical and Electronic Engineering, business, Continuous wavelet transform

Abstract

Effective monitoring, reliable data analysis, and rational data interpretations are challenges for engineers who are specialized in bridge health monitoring. This paper demonstrates how to use the Global Positioning System (GPS) and accelerometer data to accurately extract static and quasi-static displacements of the bridge induced by ambient effects. To eliminate the disadvantages of the two separate units, based on the characteristics of the bias terms derived from the GPS and accelerometer respectively, a wavelet based multi-step filtering method by combining the merits of the continuous wavelet transform (CWT) with the discrete stationary wavelet transform (SWT) is proposed so as to address the GPS deformation monitoring application more efficiently. The field measurements are carried out on an existing suspension bridge under the normal operation without any traffic interference. Experimental results showed that the frequencies and absolute displacements of the bridge can be accurate extracted by the proposed method. The integration of GPS and accelerometer can be used as a reliable tool to characterize the dynamic behavior of large structures such as suspension bridges undergoing environmental loads.

Published

2013

16. Sensor placement for structural health monitoring of Canton Tower

Author

Ming Gu, Hong-Nan Li, and Ting-Hua Yi

Subjects

Computer Science::Robotics, Engineering, Control and Systems Engineering, business.industry, Control theory, Structural health monitoring, Electrical and Electronic Engineering, business, Reduced model, Simulation, Finite element method, Computer Science::Information Theory, Computer Science Applications

Abstract

A challenging issue in design and implementation of an effective structural health monitoring (SHM) system is to determine where a number of sensors are properly installed. In this paper, research on the optimal sensor placement (OSP) is carried out on the Canton Tower (formerly named Guangzhou New Television Tower) of 610 m high. To avoid the intensive computationally-demanding problem caused by tens of thousands of degrees of freedom (DOFs) involved in the dynamic analysis, the three dimension finite element (FE) model of the Canton Tower is first simplified to a system with less DOFs. Considering that the sensors can be physically arranged only in the translational DOFs of the structure, but not in the rotational DOFs, a new method of taking the horizontal DOF as the master DOF and rotational DOF as the slave DOF, and reducing the slave DOF by model reduction is proposed. The reduced model is obtained by IIRS method and compared with the models reduced by Guyan, Kuhar, and IRS methods. Finally, the OSP of the Canton Tower is obtained by a kind of dual-structure coding based generalized genetic algorithm (GGA).

Published

2012

17. Train-induced dynamic behavior analysis of longitudinal girder in cable-stayed bridge.

Author

Dong-Hui Yang, Ting-Hua Yi, Hong-Nan Li, Hua Liu, and Tiejun Liu

Subjects

BRIDGES, DEFLECTION (Mechanics), GIRDERS, ACCELERATION (Mechanics), MECHANICAL loads

Abstract

The dynamic behaviors of the bridge structures have great effects on the comfortability and safety of running high-speed trains, which can also reflect the structural degradation. This paper aims to reveal the characteristics of the dynamic behaviors induced by train loadings for a combined highway and railway bridge. Monitoring-based analysis of the acceleration and dynamic displacement of the bridge girder is carried out The effects of train loadings on the vertical acceleration of the bridge girder are analyzed; the spatial variability of the train-induced lateral girder displacement is studied; and statistical analysis has been performed for the daily extreme values of the traininduced girder deflections. It is revealed that there are great time and spatial variabilities for the acceleration induced by train loadings for the combined highway and railway cable-stayed bridge. The daily extreme values of the train-induced girder deflections can be well fitted by the general extreme value distribution. [ABSTRACT FROM AUTHOR]

Published

2018

18. A multitype sensor placement method for the modal estimation of structure.

Author

Xue-Yang Pei, Ting-Hua Yi, and Hong-Nan Li

Subjects

SENSOR placement, STRUCTURAL health monitoring, ACCELEROMETERS, STRAIN gages, DISPLACEMENT (Mechanics)

Abstract

In structural health monitoring, it is meaningful to comprehensively utilize accelerometers and strain gauges to obtain the modal information of a structure. In this paper, a modal estimation theory is proposed, in which the displacement modes of the locations without accelerometers can be estimated by the strain modes of selected strain gauge measurements. A two-stage sensor placement method, in which strain gauges are placed together with triaxial accelerometers to obtain more structural displacement mode information, is proposed. In stage one, the initial accelerometer locations are determined through the combined use of the modal assurance criterion and the redundancy information. Due to various practical factors, however, accelerometers cannot be placed at some of the initial accelerometer locations; the displacement mode information of these locations are still in need and the locations without accelerometers are defined as estimated locations. In stage two, the displacement modes of the estimated locations are estimated based on the strain modes of the strain gauge locations, and the quality of the estimation is seen as a criterion to guide the selection of the strain gauge locations. Instead of simply placing a strain gauge at the midpoint of each beam element, the influence of different candidate strain gauge positions on the estimation of displacement modes is also studied. Finally, the modal assurance criterion is utilized to evaluate the performance of the obtained multitype sensor placement. A bridge benchmark structure is used for a numerical investigation to demonstrate the effectiveness of the proposed multitype sensor placement method. [ABSTRACT FROM AUTHOR]

Published

2018

19. A performance-based design method for chloride-induced cover cracking of RC structures.

Author

Dong-Hui Yang, Ting-Hua Yi, and Hong-Nan Li

Subjects

CHLORIDE channels, RANDOM variables, PROBABILITY theory, MATHEMATICAL variables, DETERIORATION of materials

Abstract

Chloride-induced cover cracking will aggravate the performance deterioration for RC structures under the chlorideladen environment, which may endanger the safety of structures and occupants. Traditional design method cannot ensure that a definite performance is satisfied. To overcome the defects, a study on the performance-based design method was carried out in this paper. Firstly, the limit state functions were established for the corrosion initiation and cover cracking. Thereafter, the uncertainty analysis was performed to study the effects of random factors on the time-dependent performances. Partial factor formulae were deduced through the first-order reliability method for performance verification. Finally, an illustrative example was presented and the sensitivity of cover depth to other parameters was carried out. It is found that the uncertainties of the random variables have great effects on the required cover depth. It is demonstrated that the performance-based design method can ensure that the target performance can be satisfied and support to formulate a rational maintenance and repair strategy for RC structures under the chloride environment. [ABSTRACT FROM AUTHOR]

Published

2017

20. Outlier detection of GPS monitoring data using relational analysis and negative selection algorithm.

Author

Ting-Hua Yi, Ye, X. W., Hong-Nan Li, and Qing Guo

Subjects

OUTLIER detection, GLOBAL Positioning System, MATHEMATICAL statistics, DATA analysis, ALGORITHMS

Abstract

Outlier detection is an imperative task to identify the occurrence of abnormal events before the structures are suffered from sudden failure during their service lives. This paper proposes a two-phase method for the outlier detection of Global Positioning System (GPS) monitoring data. Prompt judgment of the occurrence of abnormal data is firstly carried out by use of the relational analysis as the relationship among the data obtained from the adjacent locations following a certain rule. Then, a negative selection algorithm (NSA) is adopted for further accurate localization of the abnormal data. To reduce the computation cost in the NSA, an improved scheme by integrating the adjustable radius into the training stage is designed and implemented. Numerical simulations and experimental verifications demonstrate that the proposed method is encouraging compared with the original method in the aspects of efficiency and reliability. This method is only based on the monitoring data without the requirement of the engineer expertise on the structural operational characteristics, which can be easily embedded in a software system for the continuous and reliable monitoring of civil infrastructure. [ABSTRACT FROM AUTHOR]

Published

2017

21. Strain-based structural condition assessment of an instrumented arch bridge using FBG monitoring data.

Author

Ye, X. W., Ting-Hua Yi, Su, Y. H., Liu, T., and Chen, B.

Subjects

SMART structures, BUILDING design & construction, STRUCTURAL health monitoring, BRIDGES, INTELLIGENT buildings

Abstract

The structural strain plays a significant role in structural condition assessment of in-service bridges in terms of structural bearing capacity, structural reliability level and entire safety redundancy. Therefore, it has been one of the most important parameters concerned by researchers and engineers engaged in structural health monitoring (SHM) practices. In this paper, an SHM system instrumented on the Jiubao Bridge located in Hangzhou, China is firstly introduced. This system involves nine subsystems and has been continuously operated for five years since 2012. As part of the SHM system, a total of 166 fiber Bragg grating (FBG) strain sensors are installed on the bridge to measure the dynamic strain responses of key structural components. Based on the strain monitoring data acquired in recent two years, the strain-based structural condition assessment of the Jiubao Bridge is carried out. The wavelet multi-resolution algorithm is applied to separate the temperature effect from the raw strain data. The obtained strain data under the normal traffic and wind condition and under the typhoon condition are examined for structural safety evaluation. The structural condition rating of the bridge in accordance with the AASHTO specification for condition evaluation and load and resistance factor rating of highway bridges is performed by use of the processed strain data in combination with finite element analysis. The analysis framework presented in this study can be used as a reference for facilitating the assessment, inspection and maintenance activities of in-service bridges instrumented with longterm SHM system. [ABSTRACT FROM AUTHOR]

Published

2017

22. Analysis of three-dimensional thermal gradients for arch bridge girders using long-term monitoring data.

Author

Guang-Dong Zhou, Ting-Hua Yi, Bin Chen, and Huan Zhang

Subjects

GIRDERS -- Design & construction, BRIDGE design & construction, EXTREME value theory, MECHANICAL loads, STRUCTURAL health monitoring

Abstract

Thermal loads, especially thermal gradients, have a considerable effect on the behaviors of large-scale bridges throughout their lifecycles. Bridge design specifications provide minimal guidance regarding thermal gradients for simple bridge girders and do not consider transversal thermal gradients in wide girder cross-sections. This paper investigates the three-dimensional thermal gradients of arch bridge girders by integrating long-term field monitoring data recorded by a structural health monitoring system, with emphasis on the vertical and transversal thermal gradients of wide concrete-steel composite girders. Based on field monitoring data for one year, the time-dependent characteristics of temperature and three-dimensional thermal gradients in girder cross-sections are explored. A statistical analysis of thennal gradients is conducted, and the probability density functions of transversal and vertical thermal gradients are estimated. The extreme thermal gradients are predicted with a specific return period by employing an extreme value analysis, and the profiles of the vertical thermal gradient are established for bridge design. The transversal and vertical thennal gradients are developed to help engineers understand the thermal behaviors of concrete-steel composite girders during their service periods. [ABSTRACT FROM AUTHOR]

Published

2015

23. Multi-point displacement monitoring of bridges using a vision-based approach.

Author

Ye, X. W., Ting-Hua Yi, Dong, C. Z., Liu, T., and Bai, H.

Subjects

BRIDGE design & construction, STRUCTURAL health monitoring, CIVIL engineering, RELIABILITY in engineering, DIFFERENTIAL transformers, COMPARATIVE studies

Abstract

To overcome the drawbacks of the traditional contact-type sensor for structural displacement measurement, the vision-based technology with the aid of the digital image processing algorithm has received increasing concerns from the community of structural health monitoring (SHM). The advanced vision-based system has been widely used to measure the structural displacement of civil engineering structures due to its overwhelming merits of non-contact, long-distance, and high-resolution. However, seldom currently-available vision-based systems are capable of realizing the synchronous structural displacement measurement for multiple points on the investigated structure. In this paper, the method for vision-based multi-point structural displacement measurement is presented. A series of moving loading experiments on a scale arch bridge model are carried out to validate the accuracy and reliability of the vision-based system for multi-point structural displacement measurement. The structural displacements of five points on the bridge deck are measured by the vision-based system and compared with diose obtained by the linear variable differential transformer (LVDT). The comparative study demonstrates that the vision-based system is deemed to be an effective and reliable means for multi-point structural displacement measurement. [ABSTRACT FROM AUTHOR]

Published

2015

24. Sensor placement optimization in structural health monitoring using distributed monkey algorithm.

Author

Ting-Hua Yi, Hong-Nan Li, and Xu-Dong Zhang

Subjects

STRUCTURAL health monitoring, STRUCTURAL analysis (Engineering), SENSOR placement, ALGORITHMS, STOCHASTIC convergence, STRUCTURAL engineering

Abstract

Proper placement of sensors plays a key role in construction and implementation of an effective structural health monitoring (SHM) system. This paper proposes a novel methodology called the distributed monkey algorithm (DMA) for the optimum design of SHM system sensor arrays. Different from tire existing algorithms, the dual-structure coding method is adopted for the representation of design variables and the single large population is partitioned into subsets and each subpopulation searches the space in different directions separately, leading to quicker convergence and higher searching capability. After the personal areas of all subpopulations have been finished, the initial optimal solutions in every subpopulation are extracted and reordered into a new subpopulation, and the harmony search algorithm (HSA) is incorporated tofind the final optimal solution. A computational case of a high-rise building has been implemented to demonstrate tire effectiveness of the proposed method. Investigations have clearly suggested that the proposed DMA is simple in concept, few in parameters, easy in implementation, and could generate sensor configurations superior to other conventional algorithms both in terms of generating optimal solutions as well as faster convergence. [ABSTRACT FROM AUTHOR]

Published

2015

25. Multi-stage structural damage diagnosis method based on "energy-damage" theory.

Author

Ting-Hua Yi, Hong-Nan Li, and Hong-Min Su

Subjects

STRUCTURAL failures, FRACTURE mechanics, BACK propagation, ARTIFICIAL neural networks

Abstract

Locating and assessing the severity of damage in large or complex structures is one of the most challenging problems in the field of civil engineering. Considering that the wavelet packet transform (WPT) has the ability to clearly reflect the damage characteristics of structural response signals and the artificial neural network (ANN) is capable of learning in an unsupervised manner and of forming new classes when the structural exhibits change, this paper investigates a multi-stage structural damage diagnosis method by using the WPT and ANN based on "energy-damage" theory, in which, the wavelet packet component energies are first extracted to be damage sensitive feature and then adopted as input into an improved back propagation (BP) neural network model for damage diagnosis in a step by step mode. To validate the efficacy of the presented approach of the damage diagnosis, the benchmark structure of the American Society of Civil Engineers (ASCE) is employed in the case study. The results of damage diagnosis indicate that the method herein is computationally efficient and is able to detect the existence of different damage patterns in the simulated experiment where minor, moderate and severe damages corresponds to involving in the loss of stiffness on braces or the removal bracing in various combinations. [ABSTRACT FROM AUTHOR]

Published

2013

26. Online damage detection using pair cointegration method of time-varying displacement.

Author

Cui Zhou, Hong-Nan Li, Dong-Sheng Li, You-Xin Lin, and Ting-Hua Yi

Subjects

STRUCTURAL failures, STRUCTURAL health monitoring, ALGORITHMS, NONDESTRUCTIVE testing, STRUCTURAL analysis (Engineering), COINTEGRATION, TIME series analysis

Abstract

Environmental and operational variables are inevitable concerns by researchers and engineers when implementing the damage detection algorithm in practical projects, because the change of structural behavior could be masked by the conditions in a large extent. Thus, reliable damage detection methods should have a virtue of immunity from environmental and operational variables. In this paper, the pair cointegration method was presented as a novel way to remove the effect of environmental variables. At the beginning, the concept and procedure of this approach were introduced, and then the theoretical formulation and numerical simulations were put forward to illustrate the feasibility. The jump exceeding the control limit in the residual indicates the occurrence of damage, while the direction and magnitude imply the most potential damage location. In addition, the simulation results show that the proposed method has strong ability to resist the noise. [ABSTRACT FROM AUTHOR]

Published

2013

27. Multi-dimensional sensor placement optimization for Canton Tower focusing on application demands.

Author

Ting-Hua Yi, Hong-Nan Li, and Xiang Wang

Subjects

STRUCTURAL health monitoring, TOWERS, NONDESTRUCTIVE testing, STRUCTURAL analysis (Engineering), DETECTORS

Abstract

Optimal sensor placement (OSP) technique plays a key role in the structural health monitoring (SHM) of large-scale structures. According to the mathematical background and implicit assumptions made in the triaxial effective independence (EfI) method, this paper presents a novel multi-dimensional OSP method for the Canton Tower focusing on application demands. In contrast to existing methods, the presented method renders the corresponding target mode shape partitions as linearly independent as possible and, at the same time, maintains the stability of the modal matrix in the iteration process. The modal assurance criterion (MAC), determinant of the Fisher Information Matrix (FIM) and condition number of the FIM have been taken as the optimal criteria, respectively, to demonstrate the feasibility and effectiveness of the proposed method. Numerical investigations suggest that the proposed method outperforms the original EfI method in all instances as expected, which is looked forward to be even more pronounced should it be used for other multi-dimensional optimization problems. [ABSTRACT FROM AUTHOR]

Published

2013

28. Sensor placement for structural health monitoring of Canton Tower.

Author

Ting-Hua Yi, Hong-Nan Li, and Ming Gu

Subjects

STRUCTURAL health monitoring, STRUCTURAL analysis (Engineering), DETECTORS, GENETIC algorithms, SKYSCRAPERS, FINITE element method

Abstract

A challenging issue in design and implementation of an effective structural health monitoring (SHM) system is to determine where a number of sensors are properly installed. In this paper, research on the optimal sensor placement (OSP) is carried out on the Canton Tower (formerly named Guangzhou New Television Tower) of 610 m high. To avoid the intensive computationally-demanding problem caused by tens of thousands of degrees of freedom (DOFs) involved in the dynamic analysis, the three dimension finite element (FE) model of the Canton Tower is first simplified to a system with less DOFs. Considering that the sensors can be physically arranged only in the translational DOFs of the structure, but not in the rotational DOFs, a new method of taking the horizontal DOF as the master DOF and rotational DOF as the slave DOF, and reducing the slave DOF by model reduction is proposed. The reduced model is obtained by IIRS method and compared with the models reduced by Guyan, Kuhar, and IRS methods. Finally, the OSP of the Canton Tower is obtained by a kind of dual-structure coding based generalized genetic algorithm (GGA). [ABSTRACT FROM AUTHOR]

Published

2012

29. A new method for optimal selection of sensor location on a high-rise building using simplified finite element model.

Author

Ting-Hua Yi, Hong-Nan Li, and Ming Gu

Subjects

DETECTORS, BUILDING maintenance, FINITE element method, TALL buildings

Abstract

Deciding on an optimal sensor placement (OSP) is a common problem encountered in many engineering applications and is also a critical issue in the construction and implementation of an effective structural health monitoring (SHM) system. The present study focuses with techniques for selecting optimal sensor locations in a sensor network designed to monitor the health condition of Dalian World Trade Building which is the tallest in the northeast of China. Since the number of degree-of-freedom (DOF) of the building structure is too large, multi-modes should be selected to describe the dynamic behavior of a structural system with sufficient accuracy to allow its health state to be determined effectively. However, it's difficult to accurately distinguish the translational and rotational modes for the flexible structures with closely spaced modes by the modal participation mass ratios. In this paper, a new method of the OSP that computing the mode shape matrix in the weak axis of structure by the simplified multi-DOF system was presented based on the equivalent rigidity parameter identification method. The initial sensor assignment was obtained by the QR-factorization of the structural mode shape matrix. Taking the maximum off-diagonal element of the modal assurance criterion (MAC) matrix as a target function, one more sensor was added each time until the maximum off-diagonal element of the MAC reaches the threshold. Considering the economic factors, the final plan of sensor placement was determined. The numerical example demonstrated the feasibility and effectiveness of the proposed scheme. [ABSTRACT FROM AUTHOR]

Published

2011

30. Special Issue on Innovations in Structural Identification and Condition Assessment.

Author

Hoon SOHN, Ying LEI, and Ting-Hua YI

Subjects

STRUCTURAL health monitoring, STRUCTURAL analysis (Engineering), STRUCTURAL engineering

Abstract

An introduction is presented in which the editor discusses reports within the issue on topics including structural identification of physical parameters of a structure as well as structural health monitoring of intelligent infrastructure and condition assessment.

Published

2015

31. Special issue on New technologies in infrastructural health monitoring and preventive maintenance.

Author

Ting-Hua Yi, Hua-Peng Chen, and Xiao-Wei Ye

Subjects

STRUCTURAL health monitoring, SYSTEM identification

Published

2017

32. Special issue on Intelligent Information Processing Technology in Structural Health Monitoring.

Author

Hong-Nan LI, Jeong-Tae KIM, and Ting-Hua YI

Subjects

STRUCTURAL health monitoring, MULTISENSOR data fusion, SIGNAL processing

Abstract

The article introduces a special issue on intelligent information processing technology in structural health monitoring on topics such as noise smoothing technology, multi-sensor data fusion and diagnostics and prognostics technology of structural components and systems.

Published

2013