Diferenzas

Isto amosa as diferenzas entre a revisión seleccionada e a versión actual da páxina.

Enlazar a esta vista de comparación

Both sides previous revisionPrevious revision
Next revision
Previous revision
hiperespectral:hyfm-reg [2017/03/22 09:37] – [Abstract] alvaro.ordonezhiperespectral:hyfm-reg [2017/11/10 10:47] (actual) – [Fourier–Mellin registration of two hyperspectral images (HYFM)] alvaro.ordonez
Liña 1: Liña 1:
-====== Hyperspectral Fourier-Mellin algorithm (HYFM) ====== +====== FourierMellin registration of two hyperspectral images (HYFM) ====== 
-Experimental results related to the paper **Fourier-Mellin registration of two hyperspectral images** by Álvaro Ordóñez, Francisco Argüello, and Dora B.,  +Experimental results related to the paper [[http://dx.doi.org/10.1080%2F01431161.2017.1292071|Fourier-Mellin registration of two hyperspectral images]] by Álvaro Ordóñez, Francisco Argüello, and Dora B. Heraspublished in International Journal of Remote Sensing.
-that it is under revision. +
 ===== Abstract ===== ===== Abstract =====
 Hyperspectral images contain a great amount of information which can be used to more robustly register such images. In this article, we present a phase correlation method to register two hyperspectral images that takes into account their multiband structure. The proposed method is based on principal component analysis, the multilayer fractional Fourier transform, a combination of log-polar maps, and peak processing. The combination of maps is aimed at highlighting some peaks in the log-polar map using information from different bands. The method is robust and has been successfully tested for any rotation angle with commonly used hyperspectral scenes in remote sensing for scales of up to 7.5× and with pairs of hyperspectral images taken on different dates by the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) sensor for scales of up to 6.0×. Hyperspectral images contain a great amount of information which can be used to more robustly register such images. In this article, we present a phase correlation method to register two hyperspectral images that takes into account their multiband structure. The proposed method is based on principal component analysis, the multilayer fractional Fourier transform, a combination of log-polar maps, and peak processing. The combination of maps is aimed at highlighting some peaks in the log-polar map using information from different bands. The method is robust and has been successfully tested for any rotation angle with commonly used hyperspectral scenes in remote sensing for scales of up to 7.5× and with pairs of hyperspectral images taken on different dates by the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) sensor for scales of up to 6.0×.