Use of LIDAR Data in the 3D/4D Analyses of the Krakow Fortress Objects

Głowienka, E.; Michałowska, Krystyna; Opalinski, Piotr; Hejmanowska, B.; Mikrut, S.; Kramarczyk, Piotr

doi:10.1088/1757-899x/245/4/042080

Cited by 6 publications

(2 citation statements)

References 15 publications

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“…In addition, solutions used by the authors may be used in other areas not related to the marine environment, e.g. to monitor and assess the condition of the structure [19][20][21][22][23][24][25][26][27][28], also in combination with imaging methods and photogrammetry using UAV [29][30][31]. The use of proprietary algorithms in the field of laser scanning [32][33][34] allows to increase the accuracy and analysis of the geometry of objects based on MarLS (marine laser scanning) and MLS (mobile laser scanning) made from inland and port waterways.…”

Section: Discussionmentioning

confidence: 99%

Mobile Laser Scanning Calibration on A Marine Platform

Szulwic

Tysiąc

2018

Polish Maritime Research

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The article describes the method of calibration of the Riegl VMZ-400 mobile scanning system on a floating platform and an experiment aimed at conducting measurements from a previously calibrated instrument. The issue of factors affecting the quality of measurements was discussed. Mobile laser scanning is an increasingly popular measurement solution, but it is still innovative on a European scale. The use of a floating platform is unique on a national scale. The presented solution is the result of the work of the Gdańsk University of Technology team on the development of the measurement procedure for scanning land from the sea and the river.

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Section: Discussionmentioning

confidence: 99%

Mobile Laser Scanning Calibration on A Marine Platform

Szulwic

Tysiąc

2018

Polish Maritime Research

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“…The final product of airborne LiDAR's measurement is a terrain representation in the form of a dense point cloud with defined XYZ coordinates, which after processing becomes a DTM. The files are saved in the LAS format and, in addition to the point coordinates, they contain information about the class of the point and the intensity of the signal reflection, among other things (Glowienka et al, 2017). The points can also be assigned RGB values (corresponding to the colours blue, green and red), extracted from aerial photographs (He et al, 2022;Lombardi et al, 2022).…”

Section: Aerial Retrieved Geodatamentioning

confidence: 99%

Geodata in Science – A Review of Selected Scientific Fields

Apollo,

Jakubiak,

Nistor

et al. 2023

ASP.FC

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Aim of the study: Today, completely new forms of geo-information systems are becoming increasingly popular. New technological possibilities allow these systems to be adapted to the requirements and needs of societies. This paper is an extensive literature review of the use of geodata in various scientific fields, in STEM (science, technology, engineering, and mathematics) disciplines. However, as there is no universal agreement as to which disciplines are included in the STEM, the authors also included related fields such as geography or transport. Material and methods: Already a preliminary analysis of the Web of Science Core Collection database has shown that geodata is used very widely, in every scientific discipline analysed (with varying degrees of sophistication). The main objective of the paper is to provide a comprehensive analysis of the usage of geodata in five areas: bathymetric measurements, satellite geodata, aerial retrieved geodata, levelling networks, and GIS data. Results and conclusions: The results showed the increasing availability of data that can contribute to a better understanding and management of our planet. Geodata as a tool is overly broad and general, and it is used or might be used in every discipline of science.

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