Wireless measuring system based on cochlea principle for acquiring dynamic response of constructional structure
First Claim
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1. A wireless measuring system based on a cochlea principle for acquiring a dynamic response of a constructional structure in order to evaluate health and a state of the constructional structure, comprising:
- a sensing unit comprising a processor including an embedded computer software program for deconstructing measured signals output from an acceleration sensor into a plurality of frequency ranges, reconstructing the deconstructed signals to form a reconstructed signal, sampling only peaks of the reconstructed signal, compressing the peaks of the reconstructed signal, and digitizing the compressed peaks of the reconstructed signal; and
a main computer receiving from the sensing unit the digitized compressed peaks of the reconstructed signal, the main computer including a programmed control algorithm for monitoring and analyzing the health and the state of the constructional structure based on the received digitized compressed peaks of the reconstructed signal,wherein the sensing unit and the main computer transmit and receive signals using a wireless transmitting and receiving means,wherein;
deconstructing the measured signals includes extracting signals in specific frequency ranges from the measured signals output from the acceleration sensor using a plurality of band pass filters having different central frequencies or bandwidths,reconstructing the deconstructed signals includes reconstructing the extracted signals based on the central frequencies and the bandwidths of the plurality of band pass filters,sampling only peaks of the reconstructed signal includes sampling peak data by applying a peak picking algorithm to the reconstructed signal,the embedded computer software program calculates a reconstruction error (J) while changing the central frequencies or the bandwidths to determine the central frequencies or the bandwidths used in the deconstructing when the reconstruction error is the smallest, andthe embedded computer software program calculates a data compression rate (CR) and the reconstruction error (J) while changing the number of band pass filters to determine the number of band pass filters used in the deconstructing when a difference between the data compression rate (CR) and the reconstruction error (J) is the smallest.
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Abstract
Provided is a wireless measuring system based on a cochlea principle for acquiring a dynamic response of a constructional structure and capable of monitoring and controlling health of the constructional structure in real time by acquiring the dynamic response of the constructional structure in which irregular random vibrations occur, effectively compressing the acquired data, wirelessly transmitting a signal, and analyzing the transmitted signal.
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Citations
4 Claims
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1. A wireless measuring system based on a cochlea principle for acquiring a dynamic response of a constructional structure in order to evaluate health and a state of the constructional structure, comprising:
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a sensing unit comprising a processor including an embedded computer software program for deconstructing measured signals output from an acceleration sensor into a plurality of frequency ranges, reconstructing the deconstructed signals to form a reconstructed signal, sampling only peaks of the reconstructed signal, compressing the peaks of the reconstructed signal, and digitizing the compressed peaks of the reconstructed signal; and a main computer receiving from the sensing unit the digitized compressed peaks of the reconstructed signal, the main computer including a programmed control algorithm for monitoring and analyzing the health and the state of the constructional structure based on the received digitized compressed peaks of the reconstructed signal, wherein the sensing unit and the main computer transmit and receive signals using a wireless transmitting and receiving means, wherein; deconstructing the measured signals includes extracting signals in specific frequency ranges from the measured signals output from the acceleration sensor using a plurality of band pass filters having different central frequencies or bandwidths, reconstructing the deconstructed signals includes reconstructing the extracted signals based on the central frequencies and the bandwidths of the plurality of band pass filters, sampling only peaks of the reconstructed signal includes sampling peak data by applying a peak picking algorithm to the reconstructed signal, the embedded computer software program calculates a reconstruction error (J) while changing the central frequencies or the bandwidths to determine the central frequencies or the bandwidths used in the deconstructing when the reconstruction error is the smallest, and the embedded computer software program calculates a data compression rate (CR) and the reconstruction error (J) while changing the number of band pass filters to determine the number of band pass filters used in the deconstructing when a difference between the data compression rate (CR) and the reconstruction error (J) is the smallest. - View Dependent Claims (2, 3, 4)
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Specification