4.7 Article

Generation of Dense and High-Precision Digital Elevation Model Using Low-Cost Unmanned Aerial Vehicle and Space-Borne TanDEM-X to Measure Exposed Area Change Due to Tidal Invasion

出版社

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSTARS.2022.3195744

关键词

Autonomous aerial vehicles; Three-dimensional displays; Laser radar; Tides; Software; Surface topography; Nonlinear distortion; Bowl effect; digital elevation model (DEM); least-squares 3-D surface matching with a polynomial model (LS3D-PM); seawater changes; TanDEM-X; tidal flat

资金

  1. Ministry of Education of the Republic of Korea
  2. National Research Foundation of Korea [NRF-2018R1D1A1B06049484, 2019-MOIS32-015]
  3. Ministry of Interior and Safety

向作者/读者索取更多资源

Tidal flats are internationally protected areas, but also common sites of accidents. Understanding the geomorphologic characteristics of tidal flats is crucial for visitor safety. This article proposes a practical method to correct distorted digital elevation models (DEMs) using a globally collected DEM, effectively estimating changes in tidal flats over time.
Tidal flats are internationally protected areas because of their environmental, geological, and economic value. Nevertheless, these are areas where casualties are common among visitors. To ensure the safety of visitors, efforts must be made to understand the geomorphologic characteristics of tidal flats. It is necessary to use three-dimensional (3-D) topographic data to clearly determine when an exposed tidal flat rapidly disappears as a result of periodic tidal fluctuations. Digital elevation models (DEMs) created using unmanned aerial vehicle (UAV) imaging and commercial photogrammetric software to measure tidal flats are produced using ground control points (GCPs). It is difficult to conduct field surveys and readings of image coordinates that correspond to these because tidal flat areas are difficult to access. The distribution of GCPs affects the accuracy of a DEM because the entire test region cannot be covered during a survey. Without GCPs, the DEM generated with the UAV images and photogrammetric software using the structure from the motion technique probably has nonlinear distortion such as a bowl shape. This article proposes a practical method of least-squares 3-D surface matching with a polynomial model (LS3D-PM) to correct a distorted DEM. For this LS3D-PM matching, a global TanDEM-X DEM was used instead of a field survey to collect the GCPs in a tidal flat. Practical testing was conducted using the proposed method. The root-mean-square error with respect to the height decreased from approximately 1.0 to 0.1 m, and the bowl-effect error was eliminated. With the DEM corrected using the proposed method and the classified orthoimages, the exposed tidal flat changes due to seawater invasion were estimated at different times during flood tide. This method has nontrivial technical values for quick and relatively precise DEM generations at a low cost compared to that of other techniques, particularly in emergency situations such as tsunamis, landslides, and earthquakes.

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