TLS and GB-RAR Measurements of Vibration Frequencies and Oscillation Amplitudes of Tall Structures: An Application to Wind Towers
暂无分享,去创建一个
[1] E. Peter Carden,et al. Vibration Based Condition Monitoring: A Review , 2004 .
[2] Dejan Grigillo,et al. New Target for Accurate Terrestrial Laser Scanning and Unmanned Aerial Vehicle Point Cloud Registration , 2019, Sensors.
[3] The Internet of Things for Smart Urban Ecosystems , 2019, Internet of Things.
[4] C. Hancock,et al. A review of the use of terrestrial laser scanning application for change detection and deformation monitoring of structures , 2016 .
[5] Massimiliano Pieraccini,et al. Monitoring of Civil Infrastructures by Interferometric Radar: A Review , 2013, TheScientificWorldJournal.
[6] James M. W. Brownjohn,et al. Review of machine-vision based methodologies for displacement measurement in civil structures , 2018 .
[7] Mihai Datcu,et al. Compact Ground-Based Interferometric Synthetic Aperture Radar: Short-range structural monitoring , 2019, IEEE Signal Processing Magazine.
[8] Kiyoung Kim,et al. Dynamic displacement measurement of a vibratory object using a terrestrial laser scanner , 2015 .
[9] Claude Boutin,et al. Dynamic behaviour of an asymmetric building: Experimental and numerical studies , 2014 .
[10] Luigi Borrelli,et al. Monitoring of an Ancient Landslide Phenomenon by GBSAR Technique in the Maierato Town (Calabria, Italy) , 2015 .
[11] Carlo Atzeni,et al. Remote Survey of the Leaning Tower of Pisa by Interferometric Sensing , 2010, IEEE Geoscience and Remote Sensing Letters.
[12] Raffaele Zinno,et al. TLS for Dynamic Measurement of the Elastic Line of Bridges , 2020, Applied Sciences.
[13] Giovanni Nico,et al. Monitoring Strategies of Earth Dams by Ground-Based Radar Interferometry: How to Extract Useful Information for Seismic Risk Assessment , 2018, Sensors.
[14] New Approach for Low-Cost TLS Target Measurement , 2019, Journal of Surveying Engineering.
[15] Motoyuki Sato,et al. Measurement of Pier Deformation Patterns by Ground-Based SAR Interferometry: Application to a Bollard Pull Trial , 2018, IEEE Journal of Oceanic Engineering.
[16] Dimitrios Bolkas,et al. Effect of target color and scanning geometry on terrestrial LiDAR point-cloud noise and plane fitting , 2018 .
[17] Adam M. Ragheb,et al. Wind Turbines Theory - The Betz Equation and Optimal Rotor Tip Speed Ratio , 2011 .
[18] A. Betz. The Maximum of the Theoretically Possible Exploitation of Wind by Means of a Wind Motor , 2013 .
[19] Alessandro Sabato,et al. Wireless MEMS-Based Accelerometer Sensor Boards for Structural Vibration Monitoring: A Review , 2017, IEEE Sensors Journal.
[20] Lei Yang,et al. Identification of dynamic displacements and modal frequencies of a medium-span suspension bridge using multimode GNSS processing , 2014 .
[21] M. Perrelli,et al. Monitoring a Landslide with High Accuracy by Total Station: A DTM-Based Model to Correct for the Atmospheric Effects , 2018 .
[22] Derek D. Lichti,et al. Modeling Terrestrial Laser Scanner Data for Precise Structural Deformation Measurement , 2007 .
[23] Serena Artese,et al. POIS, a Low Cost Tilt and Position Sensor: Design and First Tests , 2015, Sensors.
[24] Pizhong Qiao,et al. Vibration-based Damage Identification Methods: A Review and Comparative Study , 2011 .
[25] Raffaele Zinno,et al. Monitoring of Bridges by a Laser Pointer: Dynamic Measurement of Support Rotations and Elastic Line Displacements: Methodology and First Test , 2018, Sensors.
[26] Dae-Hyun Kim,et al. Real-Time Structural Health Monitoring Using a Novel Fiber-Optic Accelerometer System , 2007, IEEE Sensors Journal.
[27] Wei Fan,et al. Vibration-based Damage Identification Methods: A Review and Comparative Study , 2011 .