Terrestrial Scanning
Architecture, Infrastructure & Construction
Nikolaus Studnicka (nstudnicka@riegl.com), Jacob Zurl (jacob.zurl@strabag.com): Straßenvermessung mit dem RIEGL VZ-600i Laserscanner(11.03.2024)
Richard Ladstädter, Stephan Schraml, Nikolaus Studnicka: Multi-Sensor Visibility Study based on a Hot Smoke Experiment in a Tunnel (06.03.2024)
Nikolaus Studnicka: RIEGL VZ-600i – Terrestrisches Laserscanning im Minutentakt (24.11.2023)
Taskın Özkan et al.: Historic Timber Roof Structure Reconstruction through Automated Analysis of Point Clouds (13.01.2022)
Nikolaus Studnicka, Franz Zehetner: 3D-Vermessung und 3D-Modell des Domes Dokumentation des Zustands des Domes und der Arbeiten der Dombauhütte
(03.09.2020)
Franz Zehetner, Nikolaus Studnicka: Vermessung des Wiener Stephansdoms mit einem Laserscanner (17.08.2020)
Nikolaus Studnicka et al.: Effiziente Aufnahme und orthogonale Darstellung von Laserscans zur Erstellung von Bestandsplänen historischer Gebäude (01.05.2019)
Teng Xu, Lijun Xu, Xiaolu Li, and Junen Yao: Detection of Water Leakage in Underground Tunnels Using Corrected Intensity Data and 3D Point Cloud of Terrestrial Laser Scanning (29.06.2018)
Nikolaus Studnicka, Philipp Amon, Christoph Effkemann:"Vermessung und Modellierung Forumsgebäude TU Braunschweig mit 3D Laser Scanner RIEGL VZ-400
(09.12.2010)
Topography & Monitoring
Thomas Gaisecker, Daniel Schröder: RIEGL V-Line Scanners for Permanent Monitoring Applications and Integration Capabilities into Customers Risk Management – Version 2(11.09.2023)
Vos, S., Anders, K., Kuschnerus, M. et al. A high-resolution 4D terrestrial laser scan dataset of the Kijkduin beach-dune system, The Netherlands (19.09.2022)
Thomas Gaisecker, Daniel Schröder: RIEGL V-Line Scanners for Permanent Monitoring Applications and Integration Capabilities into Customers Risk Management (13.04.2022)
Joanna Fidelus-Orzechowska, Dariusz Strzyżowski, Jarosław Cebulski, Dominika Wrońska-Wałach: A Quantitative Analysis of Surface Changes on an Abandoned Forest Road in the Lejowa Valley (Tatra Mountains, Poland) (21.10.2020)
Marco Pagano et al.: Discontinuity Characterization of Rock Masses through Terrestrial Laser Scanner and Unmanned Aerial Vehicle Techniques Aimed at Slope Stability Assessment (24.04.2020)
Andreas Dietrich, Michael Krautblatter "Deciphering controls for debris‐flow erosion derived from a LiDAR‐recorded extreme event and a calibrated numerical model (Roßbichelbach, Germany)" (13.01.2019)
A. Sinitsyn, D. Wrangborg, R. Yulmetov, A.T. Sund and A. Marchenko: "Measurements of Deformations and Displacements of Stationary Quays in Svalbard with 3D Laser Scanner RIEGL VZ-1000" (20.08.2012)
A. Sima, S.J. Buckley, D. Schneider, J.A. Howell: "An improved workflow for image- and laser-based virtual geological outcrop modelling" (28.03.2011)
D.A. Jerram "Journey into the hottest place on Earth" (07.12.2009)
S. J. Buckley, E. Schwarz, V. Terlaky,J. A. Howell, R. W. C. Arnott
"Terrestrial laser scanning combined with photogrammetry for digital outcrop modelling", ISPRS 2009
(15.09.2009)
J. Boavida, A. Oliveira, A. Berberan"Dam monitoring using combined terrestrial imaging systems", Civil Engineering Surveyor (CES) December/January 2009
(11.02.2009)
Glacier, Iceberg and Snowfield Monitoring
Yida Xie et al.: Applying Artificial Cover to Reduce Melting in Dagu Glacier in the Eastern Qinghai-Tibetan Plateau(24.03.2023)
Chun-Hai XU et al.: Rapid mass loss and disappearance of summer-accumulation type hanging glacier (15.11.2021)
Manfred F. Buchroithner, Thomas Gaisecker: Ice surface changes in Eisriesenwelt (Salzburg, Austria) based on LIDAR measurements between 2017 and 2020 (16.07.2020)
Daniel Müller et. al: High-Resolution Digital Elevation Modeling from TLS and UAV Campaign Reveals Structural Complexity at the 2014/2015 Holuhraun Eruption Site, Iceland (06.07.2017)
Adam L. LeWinter et al.: Continuous Monitoring of Greenland Outlet Glaciers Using an Autonomous Terrestrial LiDAR System: Design, Development, and Testing at Helheim Glacier, Greenland (19.12.2014)
Alexander Prokop and Christina Delaney: "A high resolution approach to defining spatial snow height distribution in avalanche release zones for dynamic avalanche modeling" (13.09.2010)
Dave Finnegan, U.S. Army Corps of Engineers "VZ-400 Snow Tests in Colorado" (09.04.2010)
David Milan*, Geroge Heritage & David HetheringtonApplication of 3D laser scanner in assessment of proglacial fluvial sediment budget
(19.08.2009)
Archaeology & Cultural Heritage
Lukas Stampfer: Live Processing and Feedback on a Combined Laserscanning and Photogrammetric Documentation Workflow(29.02.2024)
Lukas Stampfer: Survey Tool Alignment for Real-Time Mixed Reality Information Model Interaction in Heritage Recording (13.12.2023)
Deutsches Archäologisches Institut: Scan-Kampagne über der Domitilla-Katakombe in Rom erfolgreich abgeschlossen (07.02.2020)
M. Rahrig, A.Luib: Sri Dalada Maligawa – 3D-Scanning and Documentation of the Temple of the Sacred Tooth Relic at Kandy, Sri Lanka (17.08.2017)
Österreichisches Archäologisches Institut: "Das Serapeion von Ephesos - Projektbericht 3D" (20.09.2011)
Prof. N. Zimmermann: "Neue Forschungen zum Siebenschläfer-Zömeterium in Ephesos" (11.08.2011)
DI Dr. Gerold Eßer, DI Jan Kanngießer und Matthias Ganspöck: "Laser Scanning am Südbahnhof Wien" (17.03.2011)
G. Toubekis, I. Mayer, M. Döring-Williams, K. Maeda, K. Yamauchi, Y. Taniguchi, S. Morimoto, M. Petzet, M. Jarke, M. Jansen: Preservation and Management of the UNESCO World Heritage Site of Bamiyan (11.02.2011)
M. Jansen, G. Toubekis, A. Walther, M. Döring-Williams, I. Mayer: "Laser Scan Measurement of the Niche and Virtual 3D Representation of the Small Buddha in Bamiyan", Layers of Perception - CAA 2007 (10.05.2010)
The Domitilla-Catacomb in Rome, Italy (02.05.2010)
D. Visintini, E. Siotto, E. Menean "3D Modeling of St. Anthony Abbot Church in S.Daniele del Friuli (I): From Laser Scanning and Photogrammetry to VRML/X3D Model" (19.10.2009)
M. Callieri, P. Cignoni, M. Dellepiane, R. Scopigno "Pushing Time-of-Flight scanners to the limit", VAST 2009 (13.10.2009)
M. Doneus, M. Pfennigbauer, N. Studnicka, A. Ullrich "Terrestrial Waveform Laser Scanning for Documentation of Cultural Heritage", CIPA 2009 (20.09.2009)
B. Riveiro, P. Arias, J. Armesto, F. Rial, M. Solla "Multidisciplinar Aproach to Historical Arch Bridges Documentation" (07.01.2009)
Forestry Assessment & Agriculture
Kim Calders et al.: Laser scanning reveals potential underestimation of biomass carbon in temperate forest(19.12.2022)
Martin Jacobs et al.: Assessment of defoliation and subsequent growth losses caused by Lymantria dispar using terrestrial laser scanning (TLS) (21.01.2022)
Sean Krisanski et al.: Forest Structural Complexity Tool—An Open Source, Fully-Automated Tool for Measuring Forest Point Clouds (19.11.2021)
Martin Jacobs et al.: How drought stress becomes visible upon detecting tree shape using terrestrial laser scanning (TLS) (16.03.2021)
Mathias Disney, Andrew Burt, Phil Wilkes, John Armston, Laura Duncanson: New 3D measurements of large redwood trees for biomass and structure (15.10.2020)
Nikolaus Studnicka: Terrestrisches Laserscanning und der Klimawandel – moderne Messtechnik liefert exakte digitale Daten (01.06.2020)
E.Puttonen, Ch. Briese, G. Mandlburger, M. Wieser, M. Pfennigbauer,A. Zlinszky, N. Pfeifer: "Quantification of Overnight Movement of Birch (Betula pendula) Branches and Foliage with Short Interval Terrestrial Laser Scanning" (29.02.2016)
D. Hoffmeister, C. Curdt, N. Tilly, J. Bending: "3D Terrestrial Laser Scanning for Field Crop Modelling" (18.11.2010)
A. Bienert, H.-G. Maas, S. Scheller "Analysis of the Information Content of Terrestrial Laserscanner Point Clouds for the Automatic Determination of forest Inventory Parameters" (07.01.2009)
Visualization
RIEGL LMS, Benaco: Machbarkeitsstudie Laserscanningdaten als Basis für virtuellen Rundgang(19.09.2024)