A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Development of capacitance-based and impedance-based wireless sensors and sensor nodes for structural health monitoring applications
A field demonstration of a new and hybrid wireless sensing network paradigm for structural health monitoring (SHM) is presented. In this paradigm, both power and data interrogation commands are conveyed via a mobile agent that is sent to each sensor node to perform individual interrogations, which can alleviate several limitations of traditional sensing networks. This paper will discuss such prototype systems, which will be used to interrogate capacitive-based and impedance-based sensors for SHM applications. The capacitive-based wireless sensor node is specifically built to collect peak displacement measurements. In addition, a wireless sensor node for collecting electromechanical impedance data has also been developed. Both sensor nodes are specifically designed to accept various power sources and to be wirelessly triggered on an as-needed basis so that they can be used for the hybrid sensing network approach. The capabilities of these miniaturized and portable devices are demonstrated in the laboratory and the field, which was performed at the Alamosa Canyon Bridge in southern New Mexico.
Development of capacitance-based and impedance-based wireless sensors and sensor nodes for structural health monitoring applications
A field demonstration of a new and hybrid wireless sensing network paradigm for structural health monitoring (SHM) is presented. In this paradigm, both power and data interrogation commands are conveyed via a mobile agent that is sent to each sensor node to perform individual interrogations, which can alleviate several limitations of traditional sensing networks. This paper will discuss such prototype systems, which will be used to interrogate capacitive-based and impedance-based sensors for SHM applications. The capacitive-based wireless sensor node is specifically built to collect peak displacement measurements. In addition, a wireless sensor node for collecting electromechanical impedance data has also been developed. Both sensor nodes are specifically designed to accept various power sources and to be wirelessly triggered on an as-needed basis so that they can be used for the hybrid sensing network approach. The capabilities of these miniaturized and portable devices are demonstrated in the laboratory and the field, which was performed at the Alamosa Canyon Bridge in southern New Mexico.
Development of capacitance-based and impedance-based wireless sensors and sensor nodes for structural health monitoring applications
Entwicklung von kapazitäts- und impedanzbasierten, drahtlosen Sensoren und Sensorknotenpunkten für die Bauwerksüberwachung
Mascarenas, David D.L. (author) / Flynn, Eric B. (author) / Todd, Michael D. (author) / Overly, Timothy G. (author) / Farinholt, Kevin M. (author) / Park, Gyuhae (author) / Farrar, Charles R. (author)
Journal of Sound and Vibration ; 329 ; 2410-2420
2010
11 Seiten, 14 Bilder, 20 Quellen
Article (Journal)
English
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