A new general algorithm fur computing distance transforms of digital images is presented. The algorithm consists of two phases. Both phases consist of two scans, a forward and a backward scan. The first phase scans the image column-wise, while the second phase scans the image row-wise. Since the computation per row (column) is independent of the computation of other rows (columns), the algorithm can be easily parallelized on shared memory computers. The algorithm can be used for the computation of the exact Euclidean, manhattan (L-1 norm), and chessboard distance (L-infinity norm) transforms
The Fast Exact Euclidean Distance (FEED) transform is generalized to support intensity values and gr...
An algorithm Mscan is proposed for the computation of the distance transform of a feature in an imag...
The Distance Transform (DT) is a general operator forming the basis of many methods in computer visi...
A new general algorithm for computing distance transforms of digital images is presented. The algori...
A new general algorithm fur computing distance transforms of digital images is presented. The algori...
Abstract—A sequential algorithm is presented for computing the exact Euclidean distance transform (D...
Given a binary image, Euclidean distance transform is to compute for each pixel the Euclidean distan...
AbstractIn image processing, the distance transform (DT), in which each object grid point is assigne...
The Euclidean distance transform of a binary image is the function that assigns to every pixel the E...
The distance calculation in an image is a basic operation in computer vision, pattern recognition, a...
A distance transform converts a binary image consisting of foreground (feature) and background (nonf...
The distance transform (DT) and the medial axis transform (MAT) are two image computation tools used...
A new unique class of foldable distance transforms of digital images (DT) is introduced, baptized: F...
In this paper, we propose an efficient algorithm, i.e., PBEDT, for short, to compute the exact Eucli...
The main result of this paper is that simple (raster scan) sequential algo-rithms for computing Eucl...
The Fast Exact Euclidean Distance (FEED) transform is generalized to support intensity values and gr...
An algorithm Mscan is proposed for the computation of the distance transform of a feature in an imag...
The Distance Transform (DT) is a general operator forming the basis of many methods in computer visi...
A new general algorithm for computing distance transforms of digital images is presented. The algori...
A new general algorithm fur computing distance transforms of digital images is presented. The algori...
Abstract—A sequential algorithm is presented for computing the exact Euclidean distance transform (D...
Given a binary image, Euclidean distance transform is to compute for each pixel the Euclidean distan...
AbstractIn image processing, the distance transform (DT), in which each object grid point is assigne...
The Euclidean distance transform of a binary image is the function that assigns to every pixel the E...
The distance calculation in an image is a basic operation in computer vision, pattern recognition, a...
A distance transform converts a binary image consisting of foreground (feature) and background (nonf...
The distance transform (DT) and the medial axis transform (MAT) are two image computation tools used...
A new unique class of foldable distance transforms of digital images (DT) is introduced, baptized: F...
In this paper, we propose an efficient algorithm, i.e., PBEDT, for short, to compute the exact Eucli...
The main result of this paper is that simple (raster scan) sequential algo-rithms for computing Eucl...
The Fast Exact Euclidean Distance (FEED) transform is generalized to support intensity values and gr...
An algorithm Mscan is proposed for the computation of the distance transform of a feature in an imag...
The Distance Transform (DT) is a general operator forming the basis of many methods in computer visi...