In this paper we propose a framework for both gradient descent image and object alignment in the Fourier domain. Our method centers upon the classical Lucas & Kanade (LK) algorithm where we represent the source and template/model in the complex 2D Fourier domain rather than in the spatial 2D domain. We refer to our approach as the Fourier LK (FLK) algorithm. The FLK formulation is advantageous when one pre-processes the source image and template/model with a bank of filters (e.g. oriented edges, Gabor, etc.) as: (i) it can handle substantial illumination variations, (ii) the inefficient pre-processing filter bank step can be subsumed within the FLK algorithm as a sparse diagonal weighting matrix, (iii) unlike traditional LK the computat...
Lucas-Kanade and Active Appearance Models are among the most commonly used methods for image alignme...
A warping is a function that deforms images by mapping between image domains. The choice of function...
Many methods for motion computation and object tracking are based on the Lucas-Kanade (LK) framework...
Abstract—In this paper we propose a framework for both gradient descent image and object alignment i...
In this paper we propose a framework for gradient de-scent image alignment in the Fourier domain. Sp...
[[abstract]]The paper proposes a robust image alignment framework based on Fourier transform of a gr...
Abstract. Gradient-descent methods have exhibited fast and reliable performance for image alignment ...
[[abstract]]In this paper, we present a robust image alignment algorithm based on matching of relati...
[[abstract]]In this paper, we present a robust image alignment algorithm based on matching of relati...
This paper presents a new edge-based technique for image alignment, combining Fourier Descriptors (F...
International audienceDense image alignment, when the displacement between the frames is large, can ...
[[abstract]]We present an image alignment algorithm based on the matching of relative gradient maps ...
Gaining invariance to camera and illumination variations has been a well investigated topic in Activ...
[[abstract]]A method for matching images includes the step of providing a template image and an inpu...
[[abstract]]This paper presents a Fourier descriptor based image alignment algorithm (FDBIA) for app...
Lucas-Kanade and Active Appearance Models are among the most commonly used methods for image alignme...
A warping is a function that deforms images by mapping between image domains. The choice of function...
Many methods for motion computation and object tracking are based on the Lucas-Kanade (LK) framework...
Abstract—In this paper we propose a framework for both gradient descent image and object alignment i...
In this paper we propose a framework for gradient de-scent image alignment in the Fourier domain. Sp...
[[abstract]]The paper proposes a robust image alignment framework based on Fourier transform of a gr...
Abstract. Gradient-descent methods have exhibited fast and reliable performance for image alignment ...
[[abstract]]In this paper, we present a robust image alignment algorithm based on matching of relati...
[[abstract]]In this paper, we present a robust image alignment algorithm based on matching of relati...
This paper presents a new edge-based technique for image alignment, combining Fourier Descriptors (F...
International audienceDense image alignment, when the displacement between the frames is large, can ...
[[abstract]]We present an image alignment algorithm based on the matching of relative gradient maps ...
Gaining invariance to camera and illumination variations has been a well investigated topic in Activ...
[[abstract]]A method for matching images includes the step of providing a template image and an inpu...
[[abstract]]This paper presents a Fourier descriptor based image alignment algorithm (FDBIA) for app...
Lucas-Kanade and Active Appearance Models are among the most commonly used methods for image alignme...
A warping is a function that deforms images by mapping between image domains. The choice of function...
Many methods for motion computation and object tracking are based on the Lucas-Kanade (LK) framework...