Two recent approaches are combined in a new technique to find moving arbitrary shapes. We combine the Velocity Hough Transform, which extracts moving conic sections, with a continuous formulation for arbitrary shape extraction, which avoids discretisation errors associated with GHT methods. The new approach has been evaluated on synthetic and real imagery and is demonstrated to provide motion analysis that is resilient to noise and to be able to detect its target shapes, which are both moving and arbitrary. Further, it is shown to have performance advantages over contemporaneous single-image extraction techniques. Finally, it appears to offer improved immunity to noise and occlusion, consistent with evidence gathering techniques, as shown b...
The use of a robust, low-level motion estimator based on a Robust Hough Transform (RHT) in a range o...
Finding arbitrary shapes within image data is a problem with applications ranging from Internet sear...
The analysis of visual motion against dense background clutter is a challenging problem. Uncertainty...
Two recent approaches are combined in a new technique to find moving arbitrary shapes. We combine th...
There are currently available many approaches aimed at tracking objects moving in sequences of image...
describe a new technique which includes motion within the evidence gathering process of the Hough tr...
Many approaches can track objects moving in sequences of images but can suffer in occlusion and nois...
We present a new approach to extracting moving spheres from a sequence of 3D point clouds. The new 3...
In this paper we present a novel formulation for the extraction of arbitrary shapes in model-based r...
The Hough transform extracts a shape by gathering evidence obtained by mapping points from the image...
The Hough transform (HT) is an established technique which evidences a shape by mapping image edge p...
We develop a new formulation for including invariance in a general form of the Hough transform. We f...
The extraction of geometric primitives from images is a fundamental task in computer vision. The obj...
According to the formulation of the Hough transform it is possible to extract any shape that can be ...
In this paper we develop a new formulation and methodology for including invariance in a general for...
The use of a robust, low-level motion estimator based on a Robust Hough Transform (RHT) in a range o...
Finding arbitrary shapes within image data is a problem with applications ranging from Internet sear...
The analysis of visual motion against dense background clutter is a challenging problem. Uncertainty...
Two recent approaches are combined in a new technique to find moving arbitrary shapes. We combine th...
There are currently available many approaches aimed at tracking objects moving in sequences of image...
describe a new technique which includes motion within the evidence gathering process of the Hough tr...
Many approaches can track objects moving in sequences of images but can suffer in occlusion and nois...
We present a new approach to extracting moving spheres from a sequence of 3D point clouds. The new 3...
In this paper we present a novel formulation for the extraction of arbitrary shapes in model-based r...
The Hough transform extracts a shape by gathering evidence obtained by mapping points from the image...
The Hough transform (HT) is an established technique which evidences a shape by mapping image edge p...
We develop a new formulation for including invariance in a general form of the Hough transform. We f...
The extraction of geometric primitives from images is a fundamental task in computer vision. The obj...
According to the formulation of the Hough transform it is possible to extract any shape that can be ...
In this paper we develop a new formulation and methodology for including invariance in a general for...
The use of a robust, low-level motion estimator based on a Robust Hough Transform (RHT) in a range o...
Finding arbitrary shapes within image data is a problem with applications ranging from Internet sear...
The analysis of visual motion against dense background clutter is a challenging problem. Uncertainty...