TY - JOUR
T1 - Investigation of Optimal Ground Control Point Distribution for Geometric Correction of VHR Remote Sensing Imagery
AU - Cevik, Ismail Can
AU - Atik, Muhammed Enes
AU - Duran, Zaide
N1 - Publisher Copyright:
© Indian Society of Remote Sensing 2024.
PY - 2024/2
Y1 - 2024/2
N2 - Remote sensing enables the measurement, extraction and presentation of useful information at various spatial and temporal scales. It is used by decision-makers to create sustainable projects. However, the high geometric accuracy of satellite images is vital for the accurate planning of sustainable projects and for accurately extracting information from remote sensing data. The geometric correction process for obtaining orthoimages requires a digital elevation model (DEM), ground control points (GCP) common in the object and image space, and a model that represents the transformation between the object space and the image space. Therefore, the accuracy of an orthoimage depends on the distribution of the ground control points, the model used, and the precision of the digital elevation model. In this study, the effect of the number and distribution of ground control points on the accuracy of the polynomial transformation model, rational function model and thin plate spline methods used in obtaining the orthoimage was investigated. The performance of the methods was evaluated by using a very high-resolution Pléiades-1B satellite image. The digital elevation model (DEM) was obtained by the photogrammetric method using aerial photographs. Experimental results demonstrate that the appropriate GCP distribution significantly improved the geometric correction accuracy of the orthoimages.
AB - Remote sensing enables the measurement, extraction and presentation of useful information at various spatial and temporal scales. It is used by decision-makers to create sustainable projects. However, the high geometric accuracy of satellite images is vital for the accurate planning of sustainable projects and for accurately extracting information from remote sensing data. The geometric correction process for obtaining orthoimages requires a digital elevation model (DEM), ground control points (GCP) common in the object and image space, and a model that represents the transformation between the object space and the image space. Therefore, the accuracy of an orthoimage depends on the distribution of the ground control points, the model used, and the precision of the digital elevation model. In this study, the effect of the number and distribution of ground control points on the accuracy of the polynomial transformation model, rational function model and thin plate spline methods used in obtaining the orthoimage was investigated. The performance of the methods was evaluated by using a very high-resolution Pléiades-1B satellite image. The digital elevation model (DEM) was obtained by the photogrammetric method using aerial photographs. Experimental results demonstrate that the appropriate GCP distribution significantly improved the geometric correction accuracy of the orthoimages.
KW - DEM
KW - Geometric correction
KW - Ground control point
KW - Remote sensing
KW - Satellite image
UR - http://www.scopus.com/inward/record.url?scp=85185107619&partnerID=8YFLogxK
U2 - 10.1007/s12524-024-01826-0
DO - 10.1007/s12524-024-01826-0
M3 - Article
AN - SCOPUS:85185107619
SN - 0255-660X
VL - 52
SP - 359
EP - 369
JO - Journal of the Indian Society of Remote Sensing
JF - Journal of the Indian Society of Remote Sensing
IS - 2
ER -