Misregistration Measurement and Improvement for Sentinel-1 SAR and Sentinel-2 Optical images
share
Co-registering the Sentinel-1 SAR and Sentinel-2 optical data of European Space Agency (ESA) is of great importance for many remote sensing applications. The Sentinel-1 and 2 product specifications from ESA show that the Sentinel-1 SAR L1 and the Sentinel-2 optical L1C images have a co-registration accuracy of within 2 pixels. However, we find that the actual misregistration errors are much larger than that between such images. This paper measures the misregistration errors by a block-based multimodal image matching strategy to six pairs of the Sentinel-1 SAR and Sentinel-2 optical images, which locate in China and Europe and cover three different terrains such as flat areas, hilly areas and mountainous areas. Our experimental results show the misregistration errors of the flat areas are 20-30 pixels, and these of the hilly areas are 20-40 pixels. While in the mountainous areas, the errors increase to 50-60 pixels. To eliminate the misregistration, we use some representative geometric transformation models such as polynomial models, projective models, and rational function models for the co-registration of the two types of images, and compare and analyze their registration accuracy under different number of control points and different terrains. The results of our analysis show that the 3rd. Order polynomial achieves the most satisfactory registration results. Its registration accuracy of the flat areas is less than 1.0 10m pixels, and that of the hilly areas is about 1.5 pixels, and that of the mountainous areas is between 1.8 and 2.3 pixels. In a word, this paper discloses and measures the misregistration between the Sentinel-1 SAR L1 and Sentinel-2 optical L1C images for the first time. Moreover, we also determine a relatively optimal geometric transformation model of the co-registration of the two types of images.
READ FULL TEXT
