Tag: Lidar
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Study “Multiscale analysis and reduction measures of urban carbon dioxide budget based on building energy consumption” published
The 3D spatial data processing group had the opportunity to collaborate with the team of Prof. Tzu-Ping Lin from National Cheng Kung University, Tainan, Taiwan, within the frame of a study dealing with carbon emission reduction measures in urban environments. One option of reducing carbon emission by buildings is to install photovoltaic (PV) panels in…
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ArchEyeAutomatic summer school 2017
From 26 to 28 July, the 3D spatial data processing group contributed to the “ArchEyeAutomatic summer school 2017: Cameras, Drones, and Laser scanning. Modern ways to document ancient objects”. With a focus on documenting and analyzing archaeological sites and objects, the summer school introduced around 40 participants to various methods of close-range remote sensing at…
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Innsbruck Summer School of Alpine Research 2017: Close Range Sensing Techniques in Alpine Terrain
From 16 to 22 July, the second ISPRS Summer School of Alpine Research took place in Obergurgl, Austria. Around 40 participants from four continents enjoyed a mix of lectures, field work and hands-on data processing related to various research topics in high mountain research. Hosted at the beautifully located and perfectly equipped Alpine Research Centre…
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Martin Hämmerle receives PhD
Yesterday, our colleague Dr. Martin Hämmerle defended his PhD thesis with great success. We would like to congratulate him – with our sincere thanks for his hard work and amazing research the last years. Martin is an expert on 3D geodata (with focus on 3D point clouds from LiDAR and photogrammetry), methods for 3D processing…
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3D bathymetry measurements in shallow-water environments with a low-cost sensor – study published
To take bathymetric measurements in areas with shallow water is very challenging for methods such as SONAR or bathymetric LiDAR. In our study “Assessing the Potential of a Low-Cost 3-D Sensor in Shallow-Water Bathymetry”, we examine the performance of a low-cost 3D camera when capturing bathymetry in waters up to 0.4 m depth. The tested…
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GIScience Colloquium Talk on Using UAVs and LiDAR to Investigate Tropical Forests, May 08
we cordially invite everybody interested to our next open GIScience colloquium talk on Mon, May 08, 2.15 pm, at the Department of Geography, Heidelberg University, Im Neuenheimer Feld 348, Lecture Hall, Room 015. The presentation will be given by Harm Bartholomeus (Wageningen). The topic is: Investigating Tropical Forests with Unmanned Aerial Vehicles and LiDAR Constant…
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Follow-up 3D-TAIGER meeting at National Cheng Kung University in Tainan
Within the exchange and collaboration project 3D-TAIGER (Multi-Source 3D Geoinformation Extraction for Improved Management of Forest and Natural Hazards – Collaboration between TAIwan and GERmany), a further workshop took place in Tainan from Thursday, 06 April 2017 to Monday, 10 April 2017. Hosted by the National Cheng Kung University (NCKU) in Tainan, the schedule comprised…
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Follow up: Final version of study “Characterizing tufa barrages in relation to channel bed morphology in a small karstic river by airborne LiDAR topo-bathymetry” available online
The final paginated version of the paper summing up our study “Characterizing tufa barrages in relation to channel bed morphology in a small karstic river by airborne LiDAR topo-bathymetry” (see initial post) can now be accessed by everyone via https://authors.elsevier.com/a/1UDhp3qItqy7- for free till February 04, 2017. Profe, J., Höfle, B., Hämmerle, M., Steinbacher, F., Yang,…
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Results of study “Direct derivation of maize plant and crop height from low-cost time-of-flight camera measurements” published
In agriculture, information about the spatial distribution of crop height is valuable for applications such as biomass and yield estimation, or increasing field work efficiency in terms of fertilizing, applying pesticides, irrigation, etc. Established methods for capturing crop height often comprise restrictions in terms of cost and time efficiency, flexibility, and temporal and spatial resolution…
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Study published: “Characterizing tufa barrages in relation to channel bed morphology in a small karstic river by airborne LiDAR topo-bathymetry”
We are pleased to announce the publication of the study “Characterizing tufa barrages in relation to channel bed morphology in a small karstic river by airborne LiDAR topo-bathymetry” in the Proceedings of the Geologists’ Association. The manuscript is already available online (http://dx.doi.org/10.1016/j.pgeola.2016.10.004) The motivation of the study is the high value of freshwater tufas in…
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Two new tools provided on GITHub: HELIOS (LiDAR simulator), VOSTOK (3D solar potential calculation)
On the GIScience GITHub, two new tools are now available: The Heidelberg LiDAR Operations Simulator HELIOS is a software package for interactive real-time simulation and visualization of terrestrial, mobile and airborne laser scanning surveys. Own virtual scenes can be generated by combining for example terrain models with other objects (buildings, vegetation). Own scan positions as…
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Apply now: ISPRS Summer School of Alpine Research 2017: Close Range Sensing Techniques in Alpine Terrain
Download flyer (PDF) Objectives The main goal of the Joint Summer School 2017 is to provide participants with innovative practical and methodological skills to characterise complex terrain and objects using close-, near range and remote sensing techniques. The Summer School will be the second edition after a successful first version in 2015. Teaching Methods Theoretical…