Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques
The research in this paper is concerned with the development of a continuous elevation model in the coastal zones of inland waters. The source data for the creation of numerical terrain models were data acquired by contemporary sensors, such as such as a single-beam echosounder and an unmanned aircr...
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2021
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oai:doaj.org-article:6177fdeec67d45818a5a83117d48b14b2021-11-11T18:56:16ZMethodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques10.3390/rs132144272072-4292https://doaj.org/article/6177fdeec67d45818a5a83117d48b14b2021-11-01T00:00:00Zhttps://www.mdpi.com/2072-4292/13/21/4427https://doaj.org/toc/2072-4292The research in this paper is concerned with the development of a continuous elevation model in the coastal zones of inland waters. The source data for the creation of numerical terrain models were data acquired by contemporary sensors, such as such as a single-beam echosounder and an unmanned aircraft system. Different interpolation methods were tested in the study. A new approach in the research field is an interpolation method based on the processing of datasets with different degrees of spatial data reduction. The authors call it the Spatial Interpolation Method based on Data Reduction (SIMDR). The choice of method is based on quantitative and qualitative analysis, taking into account the type of interpolation and the method of geodata reduction. A proposal for the practical implementation of the method involves script processing, which automates the processes of modeling and error calculation.Jacek LubczonekMarta Wlodarczyk-SielickaMalgorzata LackaGrzegorz ZaniewiczMDPI AGarticleDTMseabedhydrographyUAVtopobathymetrydata reductionScienceQENRemote Sensing, Vol 13, Iss 4427, p 4427 (2021) |
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DTM seabed hydrography UAV topobathymetry data reduction Science Q |
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DTM seabed hydrography UAV topobathymetry data reduction Science Q Jacek Lubczonek Marta Wlodarczyk-Sielicka Malgorzata Lacka Grzegorz Zaniewicz Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques |
| description |
The research in this paper is concerned with the development of a continuous elevation model in the coastal zones of inland waters. The source data for the creation of numerical terrain models were data acquired by contemporary sensors, such as such as a single-beam echosounder and an unmanned aircraft system. Different interpolation methods were tested in the study. A new approach in the research field is an interpolation method based on the processing of datasets with different degrees of spatial data reduction. The authors call it the Spatial Interpolation Method based on Data Reduction (SIMDR). The choice of method is based on quantitative and qualitative analysis, taking into account the type of interpolation and the method of geodata reduction. A proposal for the practical implementation of the method involves script processing, which automates the processes of modeling and error calculation. |
| format |
article |
| author |
Jacek Lubczonek Marta Wlodarczyk-Sielicka Malgorzata Lacka Grzegorz Zaniewicz |
| author_facet |
Jacek Lubczonek Marta Wlodarczyk-Sielicka Malgorzata Lacka Grzegorz Zaniewicz |
| author_sort |
Jacek Lubczonek |
| title |
Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques |
| title_short |
Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques |
| title_full |
Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques |
| title_fullStr |
Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques |
| title_full_unstemmed |
Methodology for Developing a Combined Bathymetric and Topographic Surface Model Using Interpolation and Geodata Reduction Techniques |
| title_sort |
methodology for developing a combined bathymetric and topographic surface model using interpolation and geodata reduction techniques |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/6177fdeec67d45818a5a83117d48b14b |
| work_keys_str_mv |
AT jaceklubczonek methodologyfordevelopingacombinedbathymetricandtopographicsurfacemodelusinginterpolationandgeodatareductiontechniques AT martawlodarczyksielicka methodologyfordevelopingacombinedbathymetricandtopographicsurfacemodelusinginterpolationandgeodatareductiontechniques AT malgorzatalacka methodologyfordevelopingacombinedbathymetricandtopographicsurfacemodelusinginterpolationandgeodatareductiontechniques AT grzegorzzaniewicz methodologyfordevelopingacombinedbathymetricandtopographicsurfacemodelusinginterpolationandgeodatareductiontechniques |
| _version_ |
1718431648241942528 |