2001
DOI: 10.1002/eqe.90
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Optimal placement of sensors on buildings subjected to intermediate‐storey excitation according to QN control method

Abstract: SUMMARYAn algorithm to calculate direct velocity feedback gain with limited number of sensors is developed in a simple way such that a certain performance index is minimized according to QN control method. If a limited number of velocity outputs can be measured, full velocity responses of the whole structure can be interpolated based on the mode shapes. By deÿning the performance index function as a combination of the structure's velocity responses and control forces only, feedback gain can be determined accor… Show more

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Cited by 1 publication
(2 citation statements)
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“…In this section, the sensor optimization arrangement scheme for an 8-story frame structure is discussed, with the accuracy of the MWGAN-TF reconstructed response as an orientation. The goal of sensor optimization is to obtain better response reconstruction with N sensors arranged on M = 8 nodes, and all the arrangement schemes are C 1 8 × 2 + C 2 8 × 2 + C 3 8 × 2 + C 4 8 × 1 = 255 in total. In each scheme, the response data of the nodes with arranged sensors were used as input data, the response data of the nodes without arranged sensors were used as output data, respectively, and the corresponding structural response reconstruction models were built.…”
Section: Optimized Sensor Placement Based On Reconstructed Responsementioning
confidence: 99%
See 1 more Smart Citation
“…In this section, the sensor optimization arrangement scheme for an 8-story frame structure is discussed, with the accuracy of the MWGAN-TF reconstructed response as an orientation. The goal of sensor optimization is to obtain better response reconstruction with N sensors arranged on M = 8 nodes, and all the arrangement schemes are C 1 8 × 2 + C 2 8 × 2 + C 3 8 × 2 + C 4 8 × 1 = 255 in total. In each scheme, the response data of the nodes with arranged sensors were used as input data, the response data of the nodes without arranged sensors were used as output data, respectively, and the corresponding structural response reconstruction models were built.…”
Section: Optimized Sensor Placement Based On Reconstructed Responsementioning
confidence: 99%
“…However, the number of sensors installed on structures is always limited due to economic costs, test instrumentation and site conditions. In practice, sensors are typically installed only in a few optimized critical locations [3,4]. As a result, most structures equipped with SHM systems are not sufficiently sensitized.…”
Section: Introductionmentioning
confidence: 99%