Statics-Based Model-Free Damage Detection under Uncertainties Using Modal Interval Analysis

Fang, Sheng-En; Huang, J.Y.

doi:10.3390/ma13071567

Cited by 5 publications

(6 citation statements)

References 33 publications

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“…The system under consideration is a single-degree-of-freedom system, as depicted in Figure 9, where the viscoelastic element is described using the Maxwell model. The presented method requires the equations of motion to be formulated in a way that describes the relationship between the central value of the parameter and its uncertainties, as outlined in Equation (31). In the case of the Kelvin model, as discussed in the previous section, achieving this is relatively straightforward.…”

Section: Single-dof System-maxwell Model Of Viscoelastic Elementmentioning

confidence: 99%

“…Interval analysis finds broad application when dealing with uncertain design parameters, extending to other problems related to the analysis of structural behavior under dynamic loads. In [29] by Sofi et al, it was applied to analyze the reliability of systems with viscoelastic dampers; in [30] by Wang et al, it was applied to assess the reliability of systems with active vibration control; and in [31], Fang and Huang utilized it in the analysis of structural damage detection involving various types of uncertainties.…”

Section: Introductionmentioning

confidence: 99%

“…Advantage: they can be applied when probability distribution is lacking; disadvantages: operations are computationally expensive and results may be less precise than with probabilistic methods.  Methods based on interval analysis [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][23][24][25][26][27][28][29][30][31]35,[42][43][44], where parameters are modeled as intervals. Advantages: they consider the range in which the parameter changes without knowing its exact distribution, allow for the relatively easy determination of the lower and upper bounds of the response function, and are relatively easy to code; disadvantage: the obtained results may be overestimated.…”

Section: Introductionmentioning

confidence: 99%

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Fixed-Point Iteration Method for Uncertain Parameters in Dynamic Response of Systems with Viscoelastic Elements

Łasecka-Plura

2024

Applied Sciences

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The paper presents a method for determining the dynamic response of systems containing viscoelastic damping elements with uncertain design parameters. A viscoelastic material is characterized using classical and fractional rheological models. The assumption is made that the lower and upper bounds of the uncertain parameters are known and represented as interval values, which are then subjected to interval arithmetic operations. The equations of motion are transformed into the frequency domain using Laplace transformation. To evaluate the uncertain dynamic response, the frequency response function is determined by transforming the equations of motion into a system of linear interval equations. Nevertheless, direct interval arithmetic often leads to significant overestimation. To address this issue, this paper employs the element-by-element technique along with a specific transformation to minimize redundancy. The system of interval equations obtained is solved iteratively using the fixed-point iteration method. As demonstrated in the examples, this method, which combines the iterative solving of interval equations with the proposed technique of equation formulation, enables a solution to be found rapidly and significantly reduces overestimation. Notably, this approach has been applied to systems containing viscoelastic elements for the first time. Additionally, the proposed notation accommodates both parallel and series configurations of damping elements and springs within rheological models.

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Section: Single-dof System-maxwell Model Of Viscoelastic Elementmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Fixed-Point Iteration Method for Uncertain Parameters in Dynamic Response of Systems with Viscoelastic Elements

Łasecka-Plura

2024

Applied Sciences

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“…Step 3: Update the population position according to the size of random value p and correlation coefficient vector A. If p < 0.5 and |A| ≥ 1, the random search mechanism is used for updating the population position according to Equation (13). If p < 0.5 and |A| < 1, the chimp individuals update their population positions with the traditional ChOA according to Equation (5).…”

Section: Hybrid Whale-chimp Optimization Algorithmmentioning

confidence: 99%

“…Boumechra [12] proposed a strategy to identify structural damage based on the deflection change of bridges to update the finite element model. Fang and Huang [13] introduced a model-free structural damage detection method using static measurement data and modal interval analysis to detect damage. Liu et al [14] presented a method for structural damage detection of statically loaded structures based on the change of internal force and displacement of the finite element model.…”

Section: Introductionmentioning

confidence: 99%

A Novel Hybrid Whale-Chimp Optimization Algorithm for Structural Damage Detection

et al. 2022

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Damage detection of structures based on swarm intelligence optimization algorithms is an effective method for structural damage detection and key parts of the field of structural health monitoring. Based on the chimp optimization algorithm (ChOA) and the whale optimization algorithm, this paper proposes a novel hybrid whale-chimp optimization algorithm (W-ChOA) for structural damage detection. To improve the identification accuracy of the ChOA, the Sobol sequence is adopted in the population initialization stage to make the population evenly fill the entire solution space. In addition, to improve the local search ability of the traditional ChOA, the bubble-net hunting mechanism and the random search mechanism of the whale optimization algorithm are introduced into the position update process of the ChOA. In this paper, the validity and applicability of the proposed method are illustrated by a two-story rigid frame model and a simply supported beam model. Simulations show that the presented method has much better performance than the ChOA, especially in dealing with multiple damage detection cases. The W-ChOA has good performance in both overcoming misjudgment and improving computational efficiency, which should be a preferred choice in adoption for structural damage detection.

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Fuzzy Logic-Based Rapid Upper Limb Assessment: A Novel Approach to Evaluate the Postural Risk of Dumper Operators

Kar

Aruna

Kunar

2023

J. Inst. Eng. India Ser. C

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Statics-Based Model-Free Damage Detection under Uncertainties Using Modal Interval Analysis

Cited by 5 publications

References 33 publications

Fixed-Point Iteration Method for Uncertain Parameters in Dynamic Response of Systems with Viscoelastic Elements

Fixed-Point Iteration Method for Uncertain Parameters in Dynamic Response of Systems with Viscoelastic Elements

A Novel Hybrid Whale-Chimp Optimization Algorithm for Structural Damage Detection

Fuzzy Logic-Based Rapid Upper Limb Assessment: A Novel Approach to Evaluate the Postural Risk of Dumper Operators

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