Presenting a new method and X-index based on Choi-Williams distribution 
and matrix density methods to detect damage in concrete beams

Hamid Reza Ahmadi; Vahid Haddadi; Mahmoud Bayat; Hamid Reza Ahmadi; Vahid Haddadi; Mahmoud Bayat

doi:10.12989/scs.2024.53.6.739

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	Steel and Composite Structures Volume 53, Number 6, December 25 2024 (Special Issue) pages 739-747 DOI: https://doi.org/10.12989/scs.2024.53.6.739	Buy article PDF The purchased file will be sent to you via email after the payment is completed. US$ 35 Buy article PDF
	Full Text PDF Presenting a new method and X-index based on Choi-Williams distribution and matrix density methods to detect damage in concrete beams
	Hamid Reza Ahmadi, Vahid Haddadi and Mahmoud Bayat
Abstract
	One of the most critical issues in the field of construction, which has gained significant attention, particularly in the last two decades, is the monitoring of structural conditions. Over time, structures may experience damage to their components during use, which can worsen if not addressed. Various factors, such as the application of larger-than-expected forces, unfavorable environmental conditions, severe weathering, design flaws, impacts, fatigue, and corrosion, can cause damage to structures, leading to substantial changes in their dynamic properties. In this research, a new method, along with a novel damage index, is introduced for detecting damage in concrete beams. The method processes structural response signals using the ChoiWilliams time-frequency function. Then, damage is identified using the X-index, and its location is determined. To assess the proposed method, a reinforced concrete beam was constructed in the laboratory, and vibration tests were conducted under various damage scenarios. The results demonstrate that the proposed method not only detects the presence of damage but also accurately identifies its location and determines the damage's relative severity. In the proposed method, there is no need to develop an analytical model, measure the input force, or remove noise from the signals. Another advantage of this method is the relatively small number of sensors required.
Key Words
	Choi-Williams function; concrete beam; condensed matrix methods; damage detection; deck of bridges
Address
	Hamid Reza Ahmadi:Department of Civil Engineering, Faculty of Engineering, University of Maragheh, Maragheh, P.O. Box 55136-553, Iran Vahid Haddadi:Department of Civil Engineering, Faculty of Engineering, University of Maragheh, Maragheh, P.O. Box 55136-553, Iran Mahmoud Bayat:School of Architecture, The University of Texas at Arlington, Arlington, TX, USA

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