We propose an algorithm for estimating the 3D motion direction of a camera that undergoes a pure translation. This algorithm exploits a single blurred image, and recovers the 3D translation direction thanks to an accurate analysis of the motion blur, which is characterized by rectilinear smears whose directions and extents typically vary throughout the image. The core of our algorithm is the estimation of the direction of these smears within small image regions that are automatically selected according to the image content. The algorithm has been successfully tested on camera images and extensively validated with different amount of noise in the images
Object movement during exposure generates blur. Removing blur is challenging because one has to esti...
A method is presentedfor the recovery of the three-dimen-sional translation of a rigtdly translating...
Copyright © the AuthorsOriginally published by SAGE.DOI: http://dx.doi.org/10.1177/0278364914557968T...
We propose an algorithm for estimating the 3D motion direction of a camera that undergoes a pure tra...
A linear method for recovering the translation direction of a moving camera using optical flow has b...
A noniterative method using optical flow to recover the translation direction of a moving camera has...
We handle a special type of motion blur considering that cameras move primarily forward or backward....
The blurs in images closely resemble an ideal point spread function (PSF) model. This similarity can...
When an observer moves through a rigid 3D scene, points that are near to the observer move with a di...
We consider the problem of localizing a moving ball from a single calibrated perspective image; afte...
Estimating motion from a single image source is a heavily ill-posed problem that aims at recovering ...
This paper describes the mathematical basis and application of a probabilistic model for recovering ...
An algorithm to estimate camera motion from the progressive deformation of a tracked contour in the ...
Optical flow methods, such as Lucas-Kanade and Horn-Schunck algorithms, are popular in motion estima...
When the relative velocity between the different objects in a scene and the camera is relative large...
Object movement during exposure generates blur. Removing blur is challenging because one has to esti...
A method is presentedfor the recovery of the three-dimen-sional translation of a rigtdly translating...
Copyright © the AuthorsOriginally published by SAGE.DOI: http://dx.doi.org/10.1177/0278364914557968T...
We propose an algorithm for estimating the 3D motion direction of a camera that undergoes a pure tra...
A linear method for recovering the translation direction of a moving camera using optical flow has b...
A noniterative method using optical flow to recover the translation direction of a moving camera has...
We handle a special type of motion blur considering that cameras move primarily forward or backward....
The blurs in images closely resemble an ideal point spread function (PSF) model. This similarity can...
When an observer moves through a rigid 3D scene, points that are near to the observer move with a di...
We consider the problem of localizing a moving ball from a single calibrated perspective image; afte...
Estimating motion from a single image source is a heavily ill-posed problem that aims at recovering ...
This paper describes the mathematical basis and application of a probabilistic model for recovering ...
An algorithm to estimate camera motion from the progressive deformation of a tracked contour in the ...
Optical flow methods, such as Lucas-Kanade and Horn-Schunck algorithms, are popular in motion estima...
When the relative velocity between the different objects in a scene and the camera is relative large...
Object movement during exposure generates blur. Removing blur is challenging because one has to esti...
A method is presentedfor the recovery of the three-dimen-sional translation of a rigtdly translating...
Copyright © the AuthorsOriginally published by SAGE.DOI: http://dx.doi.org/10.1177/0278364914557968T...