Hasan Katkhuda scite author profile

A finite-element-based procedure is proposed to identify defects in existing structures and evaluate their extent at the local element level for the purpose of health assessment. The procedure is a time-domain system identification technique where input excitation is not required to identify a structure. It estimates the dynamic properties of a structure in terms of stiffness and damping at the element level in a finite-element representation. The method can be used to precisely locate a defective spot in an element. Although input excitation information is not required, examples are used to show that the algorithm is robust enough to identify a structure excited by different types of loading. Structures can be excited simultaneously by multiple loadings, and the response information can be noise-free or noise-contaminated. Defects can be small or relatively large. In all cases, the algorithm identified the structures correctly. The error in the identification is considerably smaller than that of other available methods where input excitation information is used to identify a structure. With the help of examples, it is shown that the algorithm can potentially be used as a nondestructive evaluation technique for health assessment of existing structures with minimum disruption of operations. Since the procedure is very simple and requires only a few seconds of response information, it is expected to be very economical and efficient.

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Experimental investigation of reinforced concrete beams with spiral reinforcement in shear

Shatarat

Katkhuda

Abdel-Jaber

et al. 2016

Construction and Building Materials

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A novel health assessment technique with minimum information

Katkhuda

Haldar

2008

Struct. Control Health Monit.

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System identification of steel framed structures with semi-rigid connections

Katkhuda¹,

Dwairi²,

Shatarat³

2010

Structural Engineering and Mechanics

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Investigation of axial compressive behavior of reinforced concrete columns using Recycled Coarse Aggregate and Recycled Asphalt Pavement aggregate

Shatarat

Alhaq

Katkhuda

et al. 2019

Construction and Building Materials

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Hasan Katkhuda

Improving the mechanical properties of recycled concrete aggregate using chopped basalt fibers and acid treatment

Shear behavior of reinforced concrete beams using treated recycled concrete aggregate

Detection Model for Unbalanced Pricing in Construction Projects: A Risk-Based Approach

Health Assessment at Local Level with Unknown Input Excitation

Experimental investigation of reinforced concrete beams with spiral reinforcement in shear

A novel health assessment technique with minimum information

System identification of steel framed structures with semi-rigid connections

Investigation of axial compressive behavior of reinforced concrete columns using Recycled Coarse Aggregate and Recycled Asphalt Pavement aggregate

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