Estimation of wind loads on a tall building by an inverse method

Zhi, Lunhai; Ming-xin, Fang; Li, Q.S.

doi:10.1002/stc.1908

Cited by 19 publications

(10 citation statements)

References 26 publications

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“…To obtain the minimum-variance unbiased estimation of state vector, the gain matrixK Z, +1 is calculated by minimizing the state estimation error covariance P Z, +1| +1 under the unbiased condition shown in (20). The gain matrixK Z, +1 is given byK…”

Section: Wind Load Identification Based On Minimum-variancementioning

confidence: 99%

“…Zhi et al developed the Kalman filter method to estimate the wind load on super-tall buildings with limited structural responses. The effects of the type of wind-induced response, the covariance matrix of noise, errors of structural modal parameters, and the number of vibration modes were investigated through a detailed parametric study [20,21]. Gillijns and Moor addressed simultaneously estimating the state and the unknown input method based on the minimumvariance unbiased estimation in 2007 [22,23] and to the best of the authors' knowledge it has not been applied to wind load identification.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Time-Varying Wind Load Identification Based on Minimum-Variance Unbiased Estimation

Xue

Lin

Luo

et al. 2017

Shock and Vibration

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A minimum-variance unbiased estimation method is developed to identify the time-varying wind load from measured responses. The formula derivation of recursive identification equations is obtained in state space. The new approach can simultaneously estimate the entire wind load and the unknown structural responses only with limited measurement of structural acceleration response. The fluctuating wind speed process is investigated by the autoregressive (AR) model method in time series analysis. The accuracy and feasibility of the inverse approach are numerically investigated by identifying the wind load on a twenty-story shear building structure. The influences of the number and location of accelerometers are examined and discussed. In order to study the stability of the proposed method, the effects of the errors in crucial factors such as natural frequency and damping ratio are discussed through detailed parametric analysis. It can be found from the identification results that the proposed method can identify the wind load from limited measurement of acceleration responses with good accuracy and stability, indicating that it is an effective approach for estimating wind load on building structures.

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Section: Wind Load Identification Based On Minimum-variancementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Time-Varying Wind Load Identification Based on Minimum-Variance Unbiased Estimation

Xue

Lin

Luo

et al. 2017

Shock and Vibration

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“…Wind is an important factor that needs to be taken in consideration. It creates excessive vibrations in tall buildings and other wind‐sensitive structures, thus increasing the risks of losing their structural integrity . In case of an aircraft engine, wind (especially the crosswind) modifies interaction of the airflow with engine inlet structures, where geometry of the intake defines parameters of the airflow ingested by the engine and resistance to flow separation at varying operational conditions …”

Section: Introductionmentioning

confidence: 99%

Novel health monitoring technology for in‐service diagnostics of intake separation in aircraft engines

Gelman

Petrunin

Parrish

et al. 2020

Struct Control Health Monit

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Summary Diagnostics and elimination of airflow separation effects draw essential attention of researchers in the areas of energy generation, civil engineering, and aerospace due to unwanted and harmful interaction of separated airflow with different structures. In aviation, distortion of the intake airflows of an aircraft engine, known as intake separation, not only reduces the efficiency of the engine due to decrease in air intake but also interacts with engine structural components, for example, blades, significantly increasing their vibration. This leads to fatigue and subsequent accelerated failure of these components. Therefore, health monitoring and diagnostics of the intake separation effects using structural health monitoring (SHM) framework are of high importance for ensuring both optimal engine performance and its safe operation. In the present paper, a novel health monitoring technology based on advanced signal processing, the integrated higher order spectral technique, is applied for the first time in worldwide terms for in‐service intake separation diagnostics in aircraft engine using casing vibration data.

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“…To address the aforementioned issue, Hwang et al proposed the Kalman filtering approach in modal domain to estimate modal loads on a structure using limited measured response [16,17]. Zhi et al developed the Kalman filtering method and proper orthogonal decomposition technique to estimate the modal wind load on tall buildings [18,19]. In 2007, Gillijns and Moor proposed an approach for joint input-state estimation in discrete-time dynamic system based on minimum variance unbiased solution [20].…”

Section: Introductionmentioning

confidence: 99%

Wind Load and Structural Parameters Estimation from Incomplete Measurements

Xue

Liu

Peng

et al. 2019

Shock and Vibration

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The extended minimum variance unbiased estimation approach can be used for joint state/parameter/input estimation based on the measured structural responses. However, it is necessary to measure the structural displacement and acceleration responses at each story for the simultaneous identification of structural parameters and unknown wind load. A novel method of identifying structural state, parameters, and unknown wind load from incomplete measurements is proposed. The estimation is performed in a modal extended minimum variance unbiased manner, based on incomplete measurements of wind-induced structural displacement and acceleration responses. The feasibility and accuracy of the proposed method are numerically validated by identifying the wind load and structural parameters on a ten-story shear building structure with incomplete measurements. The effects of crucial factors, including sampling duration and the number of measurements, are discussed. Furthermore, the practical application of the developed inverse method is evaluated based on wind tunnel testing results of a 234 m tall building structure. The results indicate that the structural state, parameters, and unknown wind load can be identified accurately using the proposed approach.

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Estimation of wind loads on a tall building by an inverse method

Cited by 19 publications

References 26 publications

Time-Varying Wind Load Identification Based on Minimum-Variance Unbiased Estimation

Time-Varying Wind Load Identification Based on Minimum-Variance Unbiased Estimation

Novel health monitoring technology for in‐service diagnostics of intake separation in aircraft engines

Wind Load and Structural Parameters Estimation from Incomplete Measurements

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