High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation

High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation

Rotation and scale estimation of images are fundamental tasks in image registration. The conventional estimation method uses log-polar transform and 1D shift estimation to estimate rotation and scale regardless of the shift of images. However, this transform requires interpolation of the frequency c...

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Bibliographic Details
Main Authors: Takanori Fujisawa, Masaaki Ikehara
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Image registration
rotation estimation
scale estimation
phase only correlation
Online Access:https://ieeexplore.ieee.org/document/8643346/
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spelling doaj-d1d4ee740e6743f781c86fed8088ee8a2021-03-29T22:04:25ZengIEEEIEEE Access2169-35362019-01-017227192272810.1109/ACCESS.2019.28993908643346High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift EstimationTakanori Fujisawa0https://orcid.org/0000-0001-7632-5846Masaaki Ikehara1Department of Electronics and Electrical Engineering, Keio University, Yokohama, JapanDepartment of Electronics and Electrical Engineering, Keio University, Yokohama, JapanRotation and scale estimation of images are fundamental tasks in image registration. The conventional estimation method uses log-polar transform and 1D shift estimation to estimate rotation and scale regardless of the shift of images. However, this transform requires interpolation of the frequency components, which causes estimation error. We propose a rotation and scale estimation algorithm based on the Radon transform and sub-pixel shift estimation. The Radon transform can estimate the rotation independent of the shift and can reduce the influence of interpolation error. In addition, sub-pixel shift estimation using a linear approximation of the phase component improves the precision of 1D shift estimation and achieves accurate rotation estimation. The proposed method was evaluated on test images, and the results demonstrate that the proposed method has higher accuracy compared with the log-polar transform.https://ieeexplore.ieee.org/document/8643346/Image registrationrotation estimationscale estimationphase only correlation
collection DOAJ
language English
format Article
sources DOAJ
author Takanori Fujisawa
Masaaki Ikehara
spellingShingle Takanori Fujisawa
Masaaki Ikehara
High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation
IEEE Access
Image registration
rotation estimation
scale estimation
phase only correlation
author_facet Takanori Fujisawa
Masaaki Ikehara
author_sort Takanori Fujisawa
title High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation
title_short High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation
title_full High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation
title_fullStr High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation
title_full_unstemmed High-Accuracy Image Rotation and Scale Estimation Using Radon Transform and Sub-Pixel Shift Estimation
title_sort high-accuracy image rotation and scale estimation using radon transform and sub-pixel shift estimation
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description Rotation and scale estimation of images are fundamental tasks in image registration. The conventional estimation method uses log-polar transform and 1D shift estimation to estimate rotation and scale regardless of the shift of images. However, this transform requires interpolation of the frequency components, which causes estimation error. We propose a rotation and scale estimation algorithm based on the Radon transform and sub-pixel shift estimation. The Radon transform can estimate the rotation independent of the shift and can reduce the influence of interpolation error. In addition, sub-pixel shift estimation using a linear approximation of the phase component improves the precision of 1D shift estimation and achieves accurate rotation estimation. The proposed method was evaluated on test images, and the results demonstrate that the proposed method has higher accuracy compared with the log-polar transform.
topic Image registration
rotation estimation
scale estimation
phase only correlation
url https://ieeexplore.ieee.org/document/8643346/
work_keys_str_mv AT takanorifujisawa highaccuracyimagerotationandscaleestimationusingradontransformandsubpixelshiftestimation
AT masaakiikehara highaccuracyimagerotationandscaleestimationusingradontransformandsubpixelshiftestimation
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