Most dominant point detection methods require heuristically chosen control parameters. One of the commonly used control parameter is maximum deviation. This paper uses a theoretical bound of the maximum deviation of pixels obtained by digitization of a line segment for constructing a general framework to make most dominant point detection methods non-parametric. The derived analytical bound of the maximum deviation can be used as a natural bench mark for the line fitting algorithms and thus dominant point detection methods can be made parameter-independent and non-heuristic. Most methods can easily incorporate the bound. This is demonstrated using three categorically different dominant point detection methods. Such non-parametric approach r...
In computational shape analysis a crucial step consists in extracting meaningful features from digit...
International audienceA new and fast method for dominant point detection and polygonal representatio...
Abstract--The detection of dominant points is an important preprocessing step for shape recognition....
Most dominant point detection methods require heuristically chosen control parameters. One of the co...
A parallel algorithm for detecting dominant points on a digital closed curve is presented. The proce...
A parallel algorithm is presented for detecting dominant points on a digital closed curve. The proce...
This paper compares the error bounds of two classes of dominant point detection methods, viz. method...
In this work we address the problem of closed digital curves polygonal approximation by locating a s...
International audienceIn this paper, we investigate the problem of dominant point detection on digit...
A novel method that uses both the local and the global nature of fit for dominant point detection is...
International audienceWe propose two fast methods for dominant point detection and polygonal represe...
In computational shape analysis a crucial step consists in extracting meaningful features from digit...
In this paper the problem of dominant point detection on digital curves is addressed. Based on an in...
International audienceIn this paper, we investigate the problem of dominant point detection on digit...
This paper deals with the automated detection of a closed curvećs dominant points. We treat a curve ...
In computational shape analysis a crucial step consists in extracting meaningful features from digit...
International audienceA new and fast method for dominant point detection and polygonal representatio...
Abstract--The detection of dominant points is an important preprocessing step for shape recognition....
Most dominant point detection methods require heuristically chosen control parameters. One of the co...
A parallel algorithm for detecting dominant points on a digital closed curve is presented. The proce...
A parallel algorithm is presented for detecting dominant points on a digital closed curve. The proce...
This paper compares the error bounds of two classes of dominant point detection methods, viz. method...
In this work we address the problem of closed digital curves polygonal approximation by locating a s...
International audienceIn this paper, we investigate the problem of dominant point detection on digit...
A novel method that uses both the local and the global nature of fit for dominant point detection is...
International audienceWe propose two fast methods for dominant point detection and polygonal represe...
In computational shape analysis a crucial step consists in extracting meaningful features from digit...
In this paper the problem of dominant point detection on digital curves is addressed. Based on an in...
International audienceIn this paper, we investigate the problem of dominant point detection on digit...
This paper deals with the automated detection of a closed curvećs dominant points. We treat a curve ...
In computational shape analysis a crucial step consists in extracting meaningful features from digit...
International audienceA new and fast method for dominant point detection and polygonal representatio...
Abstract--The detection of dominant points is an important preprocessing step for shape recognition....