Rongpan Hu scite author profile

Rongpan Hu

5Publications

43Citation Statements Received

38Citation Statements Given

How they've been cited

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133

Affiliations

Hong Kong Polytechnic University, Harbin Institute of Technology

Publications

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Integrated multi‐type sensor placement and response reconstruction method for high‐rise buildings under unknown seismic loading

et al. 2018

Structural Design Tall Build

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Summary Structural health monitoring system has been implemented on high‐rise buildings to provide real‐time measurement of structural responses for evaluating their serviceability, safety, and sustainability. However, because of the complex structural configuration of a high‐rise building and the limited number of sensors installed in the building, the complete evaluation of structural performance of the building in terms of the information directly recorded by a structural health monitoring system is almost impossible. This is particularly true when seismic‐induced ground motion is unknown. This paper thus proposes an integrated method that enables the optimal placement of multi‐type sensors on a high‐rise building on one hand and the reconstruction of structural responses and excitations using the information from the optimally located sensors on the other hand. The structural responses measured from multi‐type sensors are fused to estimate the full state of the building in the modal coordinates using Kalman filters, from which the structural responses at unmeasured locations and the seismic‐induced ground motion can be reconstructed. The optimal multi‐type sensor placement is simultaneously achieved by minimizing the overall estimation errors of structural responses at the locations of interest to a desired target level. A numerical study using a simplified finite element model of a high‐rise building is performed to illustrate the effectiveness and accuracy of the proposed method. The numerical results show that by using 3 types of sensors (inclinometers, Global Positioning System, and accelerometers), the proposed method offers an effective way to design a multi‐type sensor system, and the multi‐type sensors at their optimal locations can produce sufficient information on the response and excitation reconstruction.

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SHM-Based Seismic Performance Assessment of High-Rise Buildings under Long-Period Ground Motion

2019

J. Struct. Eng.

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Multi-type sensor placement and response reconstruction for building structures: Experimental investigations

2018

Earthq. Eng. Eng. Vib.

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Long-Period Ground Motion Simulation and its Impact on Seismic Response of High-Rise Buildings

Zhao

2017

Journal of Earthquake Engineering

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Component-Level Seismic Performance Assessment of Instrumented Super High-Rise Buildings under Bidirectional Long-Period Ground Motions

2021

J. Struct. Eng.

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Rongpan Hu

Integrated multi‐type sensor placement and response reconstruction method for high‐rise buildings under unknown seismic loading

SHM-Based Seismic Performance Assessment of High-Rise Buildings under Long-Period Ground Motion

Multi-type sensor placement and response reconstruction for building structures: Experimental investigations

Long-Period Ground Motion Simulation and its Impact on Seismic Response of High-Rise Buildings

Component-Level Seismic Performance Assessment of Instrumented Super High-Rise Buildings under Bidirectional Long-Period Ground Motions

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