Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software

Lotte de Vugt; Edoardo Carraro; Ayoub Fatihi; Enrico Mattea; Eleanor Myall; Daniel Czerwonka-Schröder; Katharina Anders

doi:10.5194/isprs-archives-XLVIII-G-2025-359-2025

Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software

Lotte de Vugt (Corresponding author), Edoardo Carraro, Ayoub Fatihi, Enrico Mattea, Eleanor Myall, Daniel Czerwonka-Schröder, Katharina Anders

Department of Geography and Regional Research

Publications: Contribution to book › Contribution to proceedings › Peer Reviewed

Abstract

This study presents a first assessment of the performances of a low-cost permanent laser scanning (PLS) system for geomorphic monitoring applications. The goal is to evaluate the applicability and accuracy of these accessible technologies in comparison with high-end, commercial laser scanning systems. The assessment focuses on accuracy estimations and reliability in detecting and quantifying geomorphic changes over time in a target area in the Rotmoos valley, located in the Ötztal (Tyrol, Austria), featuring sediment movement and riverbed changes that are manually induced in an experimental setup. In this study, we use a Livox Avia scanner, controllable via an open SDK and Raspberry Pi, as low-cost monitoring setup in comparison to a high-end RIEGL VZ-2000i TLS. We acquired 14 epochs of point clouds from both systems simultaneously while inducing changes to the scene in-between acquisitions. Changes are quantified via direct point cloud comparison using the M3C2 algorithm and assessed both spatially per epoch as well as regarding the time series information at selected locations. Our results show consistent change values and patterns obtained with both Livox and RIEGL scans, demonstrating that, despite minor differences in time series trends, the low-cost Livox scanner effectively captures geomorphic changes comparable to those measured by the RIEGL. Our presented approach, by leveraging affordable hardware and open-source software tools, could provide a cost-effective solution for long-term environmental monitoring. By comparing the results obtained from both systems, this research highlights the potential of low-cost alternatives for continuous geomorphic monitoring, offering valuable insights for cost-effective environmental management and research.

Original language	English
Title of host publication	The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
Pages	359-365
Number of pages	7
Volume	48
Edition	G-2025
DOIs	https://doi.org/10.5194/isprs-archives-XLVIII-G-2025-359-2025
Publication status	Published - 28 Jul 2025
Event	2025 International Society for Photogrammetry and Remote Sensing (ISPRS) Geospatial Week, GSW 2025 - Dubai, United Arab Emirates Duration: 6 Apr 2025 → 11 Apr 2025

Publication series

Series	International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives
ISSN	1682-1750

Conference

Conference	2025 International Society for Photogrammetry and Remote Sensing (ISPRS) Geospatial Week, GSW 2025
Country/Territory	United Arab Emirates
City	Dubai
Period	6/04/25 → 11/04/25

Funding

The authors would like to thank the organizational committee of the Sensing Mountains Summer School and the invited speakers for their contributions and insights, which greatly enriched this research. EMy is funded by the Engineering and Physical Science Research Council (EPSRC) within the Geospatial Systems CDT (EPSRC Reference: EP/S023577/1). KA is supported by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) – project number 535733258 (Extract4D). LdV is supported by the “Doktoratsstipendium Nachwuchsförderung” from the University of Innsbruck. DC.-S. is supported by the Bundesministerium für Bildung und Forschung (BMBF), Federal Ministry of Education and Research, grant 02WDG1696, in the framework of project AIMon5.0.

Austrian Fields of Science 2012

105404 Geomorphology
207402 Remote sensing

Keywords

3D Time Series Analysis
Change Detection
Continuous Monitoring
Geomorphic Monitoring
Laser Scanning
Low-Cost Technology

Access to Document

10.5194/isprs-archives-XLVIII-G-2025-359-2025

Cite this

de Vugt, L., Carraro, E., Fatihi, A., Mattea, E., Myall, E., Czerwonka-Schröder, D., & Anders, K. (2025). Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software. In The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences (G-2025 ed., Vol. 48, pp. 359-365) https://doi.org/10.5194/isprs-archives-XLVIII-G-2025-359-2025

de Vugt, Lotte ; Carraro, Edoardo ; Fatihi, Ayoub et al. / Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. 48 G-2025. ed. 2025. pp. 359-365 (International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives).

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title = "Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software",

abstract = "This study presents a first assessment of the performances of a low-cost permanent laser scanning (PLS) system for geomorphic monitoring applications. The goal is to evaluate the applicability and accuracy of these accessible technologies in comparison with high-end, commercial laser scanning systems. The assessment focuses on accuracy estimations and reliability in detecting and quantifying geomorphic changes over time in a target area in the Rotmoos valley, located in the {\"O}tztal (Tyrol, Austria), featuring sediment movement and riverbed changes that are manually induced in an experimental setup. In this study, we use a Livox Avia scanner, controllable via an open SDK and Raspberry Pi, as low-cost monitoring setup in comparison to a high-end RIEGL VZ-2000i TLS. We acquired 14 epochs of point clouds from both systems simultaneously while inducing changes to the scene in-between acquisitions. Changes are quantified via direct point cloud comparison using the M3C2 algorithm and assessed both spatially per epoch as well as regarding the time series information at selected locations. Our results show consistent change values and patterns obtained with both Livox and RIEGL scans, demonstrating that, despite minor differences in time series trends, the low-cost Livox scanner effectively captures geomorphic changes comparable to those measured by the RIEGL. Our presented approach, by leveraging affordable hardware and open-source software tools, could provide a cost-effective solution for long-term environmental monitoring. By comparing the results obtained from both systems, this research highlights the potential of low-cost alternatives for continuous geomorphic monitoring, offering valuable insights for cost-effective environmental management and research.",

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de Vugt, L, Carraro, E, Fatihi, A, Mattea, E, Myall, E, Czerwonka-Schröder, D & Anders, K 2025, Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software. in The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. G-2025 edn, vol. 48, International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, pp. 359-365, 2025 International Society for Photogrammetry and Remote Sensing (ISPRS) Geospatial Week, GSW 2025, Dubai, United Arab Emirates, 6/04/25. https://doi.org/10.5194/isprs-archives-XLVIII-G-2025-359-2025

Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software. / de Vugt, Lotte (Corresponding author); Carraro, Edoardo; Fatihi, Ayoub et al.
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. 48 G-2025. ed. 2025. p. 359-365 (International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives).

Publications: Contribution to book › Contribution to proceedings › Peer Reviewed

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N2 - This study presents a first assessment of the performances of a low-cost permanent laser scanning (PLS) system for geomorphic monitoring applications. The goal is to evaluate the applicability and accuracy of these accessible technologies in comparison with high-end, commercial laser scanning systems. The assessment focuses on accuracy estimations and reliability in detecting and quantifying geomorphic changes over time in a target area in the Rotmoos valley, located in the Ötztal (Tyrol, Austria), featuring sediment movement and riverbed changes that are manually induced in an experimental setup. In this study, we use a Livox Avia scanner, controllable via an open SDK and Raspberry Pi, as low-cost monitoring setup in comparison to a high-end RIEGL VZ-2000i TLS. We acquired 14 epochs of point clouds from both systems simultaneously while inducing changes to the scene in-between acquisitions. Changes are quantified via direct point cloud comparison using the M3C2 algorithm and assessed both spatially per epoch as well as regarding the time series information at selected locations. Our results show consistent change values and patterns obtained with both Livox and RIEGL scans, demonstrating that, despite minor differences in time series trends, the low-cost Livox scanner effectively captures geomorphic changes comparable to those measured by the RIEGL. Our presented approach, by leveraging affordable hardware and open-source software tools, could provide a cost-effective solution for long-term environmental monitoring. By comparing the results obtained from both systems, this research highlights the potential of low-cost alternatives for continuous geomorphic monitoring, offering valuable insights for cost-effective environmental management and research.

AB - This study presents a first assessment of the performances of a low-cost permanent laser scanning (PLS) system for geomorphic monitoring applications. The goal is to evaluate the applicability and accuracy of these accessible technologies in comparison with high-end, commercial laser scanning systems. The assessment focuses on accuracy estimations and reliability in detecting and quantifying geomorphic changes over time in a target area in the Rotmoos valley, located in the Ötztal (Tyrol, Austria), featuring sediment movement and riverbed changes that are manually induced in an experimental setup. In this study, we use a Livox Avia scanner, controllable via an open SDK and Raspberry Pi, as low-cost monitoring setup in comparison to a high-end RIEGL VZ-2000i TLS. We acquired 14 epochs of point clouds from both systems simultaneously while inducing changes to the scene in-between acquisitions. Changes are quantified via direct point cloud comparison using the M3C2 algorithm and assessed both spatially per epoch as well as regarding the time series information at selected locations. Our results show consistent change values and patterns obtained with both Livox and RIEGL scans, demonstrating that, despite minor differences in time series trends, the low-cost Livox scanner effectively captures geomorphic changes comparable to those measured by the RIEGL. Our presented approach, by leveraging affordable hardware and open-source software tools, could provide a cost-effective solution for long-term environmental monitoring. By comparing the results obtained from both systems, this research highlights the potential of low-cost alternatives for continuous geomorphic monitoring, offering valuable insights for cost-effective environmental management and research.

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de Vugt L, Carraro E, Fatihi A, Mattea E, Myall E, Czerwonka-Schröder D et al. Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software. In The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. G-2025 ed. Vol. 48. 2025. p. 359-365. (International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives). doi: 10.5194/isprs-archives-XLVIII-G-2025-359-2025

Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software

Abstract

Publication series

Conference

Funding

Austrian Fields of Science 2012

Keywords

Access to Document

Other files and links

Fingerprint

Sensing Mountains, Innsbruck Summer School of Alpine Research

Cite this

Permanent Laser Scanning and 3D Time Series Analysis for Geomorphic Monitoring using Low-Cost Sensors and Open-Source Software

Abstract

Publication series

Conference

Funding

Austrian Fields of Science 2012

Keywords

Access to Document

Other files and links

Fingerprint

Activities

Sensing Mountains, Innsbruck Summer School of Alpine Research

Cite this