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    Applying RANSAC Algorithm for Fitting Scanning Strips from Airborne Laser Scanning

    During the development of the data acquired by airborne laser scanning the important issue is the fitting and georeferencing of ALS point clouds by means of the tie surfaces and the reference planes. The process of scanning strips adjustment is based on mutual integration of point clouds (scanning strips) and their adaptation to the reference planes. In simultaneous adjustment all strips are combined into one geometrically coherent block, to which the coordinates are given. In the process of determining discrepancies between scanning strips it is important to determine the correct size of the shifts (offsets). Authors propose to do this by using RANSAC algorithm.

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    Applying RANSAC Algorithm for Fitting Scanning Strips from Airborne Laser Scanning

    During the development of the data acquired by airborne laser scanning the important issue is the fitting and georeferencing of ALS point clouds by means of the tie surfaces and the reference planes. The process of scanning strips adjustment is based on mutual integration of point clouds (scanning strips) and their adaptation to the reference planes. In simultaneous adjustment all strips are combined into one geometrically coherent block, to which the coordinates are given. In the process of determining discrepancies between scanning strips it is important to determine the correct size of the shifts (offsets). Authors propose to do this by using RANSAC algorithm.

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    Applying RANSAC Algorithm for Fitting Scanning Strips from Airborne Laser Scanning

    During the development of the data acquired by airborne laser scanning the important issue is the fitting and georeferencing of ALS point clouds by means of the tie surfaces and the reference planes. The process of scanning strips adjustment is based on mutual integration of point clouds (scanning strips) and their adaptation to the reference planes. In simultaneous adjustment all strips are combined into one geometrically coherent block, to which the coordinates are given. In the process of determining discrepancies between scanning strips it is important to determine the correct size of the shifts (offsets). Authors propose to do this by using RANSAC algorithm.

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    Title:

    Applying RANSAC Algorithm for Fitting Scanning Strips from Airborne Laser Scanning

    Contributors:

    Błaszczak-Bąk Wioleta (author) / Janicka Joanna (author) / Sobieraj-Żłobińska Anna (author)

    Published in:

    Civil and Environmental Engineering Reports, Vol 23, Iss 4, Pp 29-42 (2016)

    Publication date:

    2016

    ISSN:

    2080-5187 , 2450-8594

    DOI:

    https://doi.org/10.1515/ceer-2016-0048

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    airborne laser scanning , ransac algorithm , fitting , Environmental engineering , TA170-171

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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