Shishuang Sun scite author profile

A new concept of designing cable sensors for health monitoring of large-scale civil infrastructure has recently been proposed by the present authors. The concept was developed based on the change in topology of the outer conductor of a coaxial cable sensor. One such sensor was fabricated with its outer conductor tightly wrapped with a commercial tin-plated steel spiral that was covered with solder. It was mounted near the surface of a 15 m long reinforced concrete (RC) girder with a 762 mm square hollow cross section and 152 mm thick walls. The girder was tested under a progressively increasing cyclic torsion creating 45 • inclined cracks around and along the girder. The main objectives of this study were to implement the distributed cable sensor technology in large-scale reinforced concrete structures, to understand the performance of a sensor under cyclic loading for detecting and locating cracks, and, finally, to address implementation issues such as signal loss, non-uniformity in sensor construction, and recoverability.

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System power distribution network theory and performance with various noise current stimuli including impacts on chip level timing

Smith

Sun

Boyle

et al. 2009

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Estimation of the statistical variation of crosstalk in wiring harnesses

Beetner

Hubing

et al. 2008

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Shishuang Sun

Hand-Assembled Cable Bundle Modeling for Crosstalk and Common-Mode Radiation Prediction

Statistical Prediction of “Reasonable Worst-Case” Crosstalk in Cable Bundles

Crack detection of a full-scale reinforced concrete girder with a distributed cable sensor

System power distribution network theory and performance with various noise current stimuli including impacts on chip level timing

Estimation of the statistical variation of crosstalk in wiring harnesses

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