2 research outputs found

    Using GPS for monitoring tall‐building response to wind loading: filtering of abrupt changes and low‐frequency noise, variography and spectral analysis of displacements

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    Summarization: We compare two methods for monitoring the dynamic response of tall buildings to wind loading, using data from a 280-m-high building in Singapore. The first method is based on accelerometer measurements. The second method is based on the Global Positioning System (GPS) technology. The GPS can in principle detect absolute displacements with lower frequencies than the accelerometers, but the GPS positioning signal is usually very noisy. We propose a systematic procedure for modeling the stochastic and systematic components of the GPS displacement time series and for extracting the weak structural response from the dominant noise. The spectrum of the building response obtained from the filtered GPS data exhibits a dominant peak at 0.19Hz. The frequency of the peak coincides with that obtained from the analysis of the accelerometer data. The proposed analysis of the GPS signal provides a method for cross-validating the GPS and accelerometer measurements, and shows that “educated” filtering of the GPS signal can reveal essential features of the building’s response to wind loading. Using GPS for monitoring tall-building response to wind loading: Filtering of abrupt changes and low-frequency noise, variography and spectral analysis of displacements. Available from: http://www.researchgate.net/publication/225424783_Using_GPS_for_monitoring_tall-building_response_to_wind_loading_Filtering_of_abrupt_changes_and_low-frequency_noise_variography_and_spectral_analysis_of_displacements [accessed Oct 19, 2015].Presented on: GPS Solution
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