# Robust Fine Registration of Multisensor Remote Sensing Images Based on Enhanced Subpixel Phase Correlation

Published in Sensors, 2020

Recommended citation: Zhen Ye, Jian Kang*, Jing Yao, Wenping Song, Sicong Liu, Xin Luo, Yusheng Xu, Xiaohua Tong. "Robust Fine Registration of Multisensor Remote Sensing Images Based on Enhanced Subpixel Phase Correlation". In Sensors, 2020.

## Abstract

Automatic fine registration of multisensor images plays an essential role in many remote sensing applications. However, it is always a challenging task due to significant radiometric and textural differences. In this paper, an enhanced subpixel phase correlation method is proposed, which embeds phase congruency-based structural representation, L1-norm-based rank-one matrix approximation with adaptive masking, and stable robust model fitting into the conventional calculation framework in the frequency domain. The aim is to improve the accuracy and robustness of subpixel translation estimation in practical cases. In addition, template matching using the enhanced subpixel phase correlation is integrated to realize reliable fine registration, which is able to extract a sufficient number of well-distributed and high-accuracy tie points and reduce the local misalignment for coarsely coregistered multisensor remote sensing images. Experiments undertaken with images from different satellites and sensors were carried out in two parts: tie point matching and fine registration. The results of qualitative analysis and quantitative comparison with the state-of-the-art area-based and feature-based matching methods demonstrate the effectiveness and reliability of the proposed method for multisensor matching and registration.

## Citation

@article{ye2020robust,
title={Robust Fine Registration of Multisensor Remote Sensing Images Based on Enhanced Subpixel Phase Correlation},
author={Ye, Zhen and Kang, Jian and Yao, Jing and Song, Wenping and Liu, Sicong and Luo, Xin and Xu, Yusheng and Tong, Xiaohua},
journal={Sensors},
volume={20},
number={15},
pages={4338},
year={2020},
publisher={Multidisciplinary Digital Publishing Institute}
}