Citations (46)
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Ashutosh Tiwari, Avadh Bihari Narayan, Ramji Dwivedi, Onkar Dikshit & B. Nagarajan. (2020) Monitoring of landslide activity at the Sirobagarh landslide, Uttarakhand, India, using LiDAR, SAR interferometry and geodetic surveys. Geocarto International 35:5, pages 535-558.
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Fanxuan Zeng, Liang Li & Kan Wu. (2019) Extraction of topographic deformation based on the 3D information of individual trees. International Journal of Remote Sensing 40:23, pages 8668-8682.
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Hasan Abdulhussein Jaafar, Xiaolin Meng & Andrew Sowter. (2018) Terrestrial laser scanner error quantification for the purpose of monitoring. Survey Review 50:360, pages 232-248.
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Paweł B. Dąbek, Ciechosław Patrzałek, Bartłomiej Ćmielewski & Romuald Żmuda. (2018) The use of terrestrial laser scanning in monitoring and analyses of erosion phenomena in natural and anthropogenically transformed areas. Cogent Geoscience 4:1.
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Konstantinos Nikolakopoulos, Katerina Kavoura, Nikolaos Depountis, Aggeliki Kyriou, Nikolaos Argyropoulos, Ioannis Koukouvelas & Nikolaos Sabatakakis. (2017) Preliminary results from active landslide monitoring using multidisciplinary surveys. European Journal of Remote Sensing 50:1, pages 280-299.
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Maurizio Barbarella, Margherita Fiani & Andrea Lugli. (2015) Landslide monitoring using multitemporal terrestrial laser scanning for ground displacement analysis. Geomatics, Natural Hazards and Risk 6:5-7, pages 398-418.
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Margherita Cecilia Spreafico, Luigi Perotti, Federico Cervi, Marco Bacenetti, Gabriele Bitelli, Valentina Alena Girelli, Emanuele Mandanici, Maria Alessandra Tini & Lisa Borgatti. (2015) Terrestrial Remote Sensing techniques to complement conventional geomechanical surveys for the assessment of landslide hazard: The San Leo case study (Italy). European Journal of Remote Sensing 48:1, pages 639-660.
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Fabio Matano, Antonio Pignalosa, Ermanno Marino, Giuseppe Esposito, Mauro Caccavale, Teresa Caputo, Marco Sacchi, Renato Somma, Claudia Troise & Giuseppe De Natale. (2015) Laser Scanning Application for Geostructural analysis of Tuffaceous Coastal Cliffs: the case of Punta Epitaffio, Pozzuoli Bay, Italy. European Journal of Remote Sensing 48:1, pages 615-637.
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Tonggang Zhang, Minyi Cen & Zizhen Ren. (2015) A novel method for improved DEM deformation detection. European Journal of Remote Sensing 48:1, pages 71-84.
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Valerio Baiocchi, Donatella Dominici, Maria Vittoria Milone & Martina Mormile. (2014) Development of a software to optimize and plan the acquisitions from UAV and a first application in a post-seismic environment. European Journal of Remote Sensing 47:1, pages 477-496.
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Fabio Di Salvo & Mauro Lo Brutto. (2014) Full-Waveform Terrestrial Laser Scanning for Extracting a High-Resolution 3D Topographic Model: a Case Study on an Area of Archaeological Significance. European Journal of Remote Sensing 47:1, pages 307-327.
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Paolo Tarolli & Marco Cavalli. (2013) Introduction to the special issue: “High resolution topography, quantitative analysis and geomorphological mapping”. European Journal of Remote Sensing 46:1, pages 60-64.
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Gaël Kermarrec, Vibeke Skytt & Tor DokkenGaël Kermarrec, Vibeke Skytt & Tor Dokken. 2023. Optimal Surface Fitting of Point Clouds Using Local Refinement. Optimal Surface Fitting of Point Clouds Using Local Refinement
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Xiaoxing He, Jean-Philippe Montillet, Zhao Li, Gaël Kermarrec, Rui Fernandes & Feng Zhou. (2022) Recent Advances in Modelling Geodetic Time Series and Applications for Earth Science and Environmental Monitoring. Remote Sensing 14:23, pages 6164.
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Aggeliki Kyriou, Konstantinos G. Nikolakopoulos & Ioannis K. Koukouvelas. (2022) Synergistic use of UAV and TLS data for precise rockfall monitoring over a hanging monastery. Synergistic use of UAV and TLS data for precise rockfall monitoring over a hanging monastery.
Zan Gojcic, Lorenz Schmid & Andreas Wieser. (2021) Dense 3D displacement vector fields for point cloud-based landslide monitoring. Landslides 18:12, pages 3821-3832.
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Oleg Yermolaev, Bulat Usmanov, Artur Gafurov, Jean Poesen, Evgeniya Vedeneeva, Fedor Lisetskii & Ionut Cristi Nicu. (2021) Assessment of Shoreline Transformation Rates and Landslide Monitoring on the Bank of Kuibyshev Reservoir (Russia) Using Multi-Source Data. Remote Sensing 13:21, pages 4214.
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Marie-Aurélie Chanut, Muriel Gasc-Barbier, Laurent Dubois & Alexandre Carotte. (2021) Automatic identification of continuous or non-continuous evolution of landslides and quantification of deformations. Landslides 18:9, pages 3101-3118.
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Denis Guilhot, Toni Martinez del Hoyo, Andrea Bartoli, Pooja Ramakrishnan, Gijs Leemans, Martijn Houtepen, Jacqueline Salzer, John S. Metzger & Gintaris Maknavicius. (2021) Internet-of-Things-Based Geotechnical Monitoring Boosted by Satellite InSAR Data. Remote Sensing 13:14, pages 2757.
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Shih-Yuan Lin, Cheng-Wei Lin & Stephan van Gasselt. (2021) Processing Framework for Landslide Detection Based on Synthetic Aperture Radar (SAR) Intensity-Image Analysis. Remote Sensing 13:4, pages 644.
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Michalina Wojtkowska, Michal Kedzierski & Paulina Delis. (2021) Validation of terrestrial laser scanning and artificial intelligence for measuring deformations of cultural heritage structures. Measurement 167, pages 108291.
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Rania Mechiche & Hamza Zeghlache. 2021. Digital Heritage. Progress in Cultural Heritage: Documentation, Preservation, and Protection. Digital Heritage. Progress in Cultural Heritage: Documentation, Preservation, and Protection
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Pamela Carolina Pesántez Cabrera. (2020) Land movement analysis from terrestrial laser scanner (LiDAR). Land movement analysis from terrestrial laser scanner (LiDAR).
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Rubén Pérez-Álvarez, Julio Manuel de Luis-Ruiz, Raúl Pereda-García, Gema Fernández-Maroto & Beatriz Malagón-Picón. (2020) 3D Documentation with TLS of Caliphal Gate (Ceuta, Spain). Applied Sciences 10:15, pages 5377.
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Xugang Lian, Huayang Dai, Linlin Ge & Yinfei Cai. (2020) Assessment of a house affected by ground movement using terrestrial laser scanning and numerical modeling. Environmental Earth Sciences 79:9.
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Honghui Wang, Donglin Nie, Xianguo Tuo & Yunshun Zhong. (2020) Research on crack monitoring at the trailing edge of landslides based on image processing. Landslides 17:4, pages 985-1007.
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Borrelli, Conforti & Mercuri. (2019) LiDAR and UAV System Data to Analyse Recent Morphological Changes of a Small Drainage Basin. ISPRS International Journal of Geo-Information 8:12, pages 536.
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Yeuan-Chang Cheng, Ci-Jian Yang & Jiun-Chuan Lin. (2019) Application for Terrestrial LiDAR on Mudstone Erosion Caused by Typhoons. Remote Sensing 11:20, pages 2425.
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José Luis Pastor, Roberto Tomás, Luca Lettieri, Adrián Riquelme, Miguel Cano, Donato Infante, Massimo Ramondini & Diego Di Martire. (2019) Multi-Source Data Integration to Investigate a Deep-Seated Landslide Affecting a Bridge. Remote Sensing 11:16, pages 1878.
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Rudolf Urban, Martin Štroner, Peter Blistan, Ľudovít Kovanič, Matej Patera, Stanislav Jacko, Igor Ďuriška, Miroslav Kelemen & Stanislav Szabo. (2019) The Suitability of UAS for Mass Movement Monitoring Caused by Torrential Rainfall—A Study on the Talus Cones in the Alpine Terrain in High Tatras, Slovakia. ISPRS International Journal of Geo-Information 8:8, pages 317.
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Zixin Zhang, Tong Yin, Xin Huang, Fan Zhang, Yeting Zhu & Wei Liu. (2019) Identification and Visualization of the Full-Ring Deformation Characteristics of a Large Stormwater Sewage and Storage Tunnel Using Terrestrial Laser Scanning Technology. Energies 12:7, pages 1304.
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Zaki M. Zeidan, Ashraf A. Beshr & Ashraf G. Shehata. (2018) Study the precision of creating 3D structure modeling form terrestrial laser scanner observations. Journal of Applied Geodesy 12:4, pages 303-309.
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Konstantinos G. Nikolakopoulos, Antonis Antonakakis, Aggeliki Kyriou, Ioannis K. Koukouvelas & Panagiotis Stefanopoulos. (2018) Comparison of terrestrial laser scanning and structure-from-motion photogrammetry for steep slope mapping. Comparison of terrestrial laser scanning and structure-from-motion photogrammetry for steep slope mapping.
Nguyen Quoc Long, Michał M. Buczek, La Phu Hien, Sylwia A. Szlapińska, Bui Xuan Nam, Nguyen Viet Nghia & Cao Xuan Cuong. (2018) Accuracy assessment of mine walls’ surface models derived from terrestrial laser scanning. International Journal of Coal Science & Technology 5:3, pages 328-338.
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František Chudý, Martina Slámová, Julián Tomaštík, Daniel Tunák, Miroslav Kardoš & Šimon Saloň. (2018) The application of civic technologies in a field survey of landslides. Land Degradation & Development 29:6, pages 1858-1870.
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Petr Hrůza, Tomáš Mikita, Nataliya Tyagur, Zdenek Krejza, Miloš Cibulka, Andrea Procházková & Zdeněk Patočka. (2018) Detecting Forest Road Wearing Course Damage Using Different Methods of Remote Sensing. Remote Sensing 10:4, pages 492.
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Ryan A. Kromer, Antonio Abellán, D. Jean Hutchinson, Matt Lato, Marie-Aurelie Chanut, Laurent Dubois & Michel Jaboyedoff. (2017) Automated terrestrial laser scanning with near-real-time change detection – monitoring of the Séchilienne landslide. Earth Surface Dynamics 5:2, pages 293-310.
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Maurizio Barbarella, Margherita Fiani & Andrea Lugli. (2017) Uncertainty in Terrestrial Laser Scanner Surveys of Landslides. Remote Sensing 9:2, pages 113.
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Martin Franz, Dario Carrea, Antonio Abellán, Marc-Henri Derron & Michel Jaboyedoff. (2016) Use of targets to track 3D displacements in highly vegetated areas affected by landslides. Landslides 13:4, pages 821-831.
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Ryan Kromer, Antonio Abellán, D. Hutchinson, Matt Lato, Tom Edwards & Michel Jaboyedoff. (2015) A 4D Filtering and Calibration Technique for Small-Scale Point Cloud Change Detection with a Terrestrial Laser Scanner. Remote Sensing 7:10, pages 13029-13052.
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Bing SONG, Nan-shan ZHENG, Dong-wei LI, Ran-li CHEN & Liang LI. (2015) Reconstructing DEM using TLS point cloud data and NURBS surface. Transactions of Nonferrous Metals Society of China 25:9, pages 3165-3172.
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Mustafa Zeybek, İsmail Şanlıoğlu & Aşır Genç. (2015) Yüksek Çözünürlüklü Yersel Lazer Tarama Verilerinin Filtrelenmesi ve Filtrelemelerin Heyelan İzlemeye Etkisi. Doğal Afetler ve Çevre Dergisi 1:1-2, pages 11.
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Maurizio Barbarella, Margherita Fiani & Andrea Lugli. 2015. Modern Technologies for Landslide Monitoring and Prediction. Modern Technologies for Landslide Monitoring and Prediction
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