Abstract
Multitemporal very-high-resolution (VHR) satellite images are used as core data in the field of remote sensing because they express the topography and features of the region of interest in detail. However, geometric misalignment and radiometric dissimilarity occur when acquiring multitemporal VHR satellite images owing to external environmental factors, and these errors cause various inaccuracies, thereby hindering the effective use of multitemporal VHR satellite images. Such errors can be minimized by applying preprocessing methods such as image registration and relative radiometric normalization (RRN). However, as the data used in image registration and RRN differ, data consistency and computational efficiency are impaired, particularly when processing large amounts of data, such as a large volume of multitemporal VHR satellite images. To resolve these issues, we proposed an integrated preprocessing method by extracting pseudo-invariant features (PIFs), used for RRN, based on the conjugate points (CPs) extracted for image registration. To this end, the image registration was performed using CPs extracted using the speeded-up robust feature algorithm. Then, PIFs were extracted based on the CPs by removing vegetation areas followed by application of the region growing algorithm. Experiments were conducted on two sites constructed under different acquisition conditions to confirm the robustness of the proposed method. Various analyses based on visual and quantitative evaluation of the experimental results were performed from geometric and radiometric perspectives. The results evidence the successful integration of the image registration and RRN preprocessing steps by achieving a reasonable and stable performance.
Highlights
Very-high-resolution (VHR) satellite images provide highly reliable information based on detailed descriptions of complex terrain and features
This study provides three main contributions: (1) the proposed method effectively integrates the preprocessing process by optimizing the characteristics of conjugate points (CPs) suitable for the pseudo-invariant features (PIFs) selection conditions; (2) the proposed mechanism extracts numerous high-quality PIFs based on CPs between VHR multitemporal satellite images, and it is possible to perform a more stable radiometric normalization (RRN) of integrated preprocessing; and (3) detailed analysis and discussion of the proposed method focusing on performance in image registration and radiometric correction are provided by implementing two datasets constructed with VHR
We proposed an integrating preprocessing method by extracting PIFs necessary for performing RRN based on CPs required for image registration
Summary
Very-high-resolution (VHR) satellite images provide highly reliable information based on detailed descriptions of complex terrain and features. VHR satellite images have attracted considerable research attention for generating high-value data in the field of remote sensing. During multitemporal VHR satellite images acquisition, geometric misalignment and radiometric dissimilarity occur owing to the satellite acquisition angle and attitude, absorption and scattering of the atmosphere, seasonal effects, and solar surface sensor interaction [2]. These geometric and radiometric dissimilarities cause fatal problems, when using VHR multitemporal images that describe an object in detail [3,4]
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