International audienceGiven a Digital Straight Line (DSL) of known characteristics (a, b, µ), we address the problem of computing the characteristics of any of its subsegments. We propose two new algorithms that use the fact that a digital straight segment (DSS) can be defined by its set of separating lines. The representation of this set in the Z 2 space leads to a first algorithm of logarithmic time complexity. This algorithm precises and extends existing results for DSS recognition algorithms. The other algorithm uses the dual representation of the set of separating lines. It consists of a smart walk in the so called Farey Fan, which can be seen as the representation of all the possible sets of separating lines for DSSs. Indeed, we take ...
In this paper, we propose an algorithm that, from a maximum error and a digital curve (4- or 8-conne...
This paper presents a structural description of digitized straight line segments and shows a scan co...
Softcover, ISBN 978-3-642-19866-3International audienceGiven a digital curve and a maximum error, we...
International audienceGiven a Digital Straight Line (DSL) of known characteristics (a, b, µ), we add...
International audienceGiven a Digital Straight Line (DSL) of known characteristics (a,b,\mu), we add...
International audienceGiven two Digital Straight Segments (DSS for short) of known minimal character...
International audienceGiven a digital straight line D of known characteristics (a, b, c), and given ...
International audienceIn this paper we take first steps in addressing the 3D Digital Subplane Recogn...
International audienceIn this paper, we arithmetically describe the convex hull ofa digital straight...
AbstractThe number of processors needed to recognize deterministic cfl's in logarithmic time on a CR...
International audienceOn a regular grid, the analysis of digital straight lines (DSL for short) has ...
AbstractThis paper deals with the problem of detecting every line component, a set of edge points cl...
International audienceThis paper concerns the digital circle recognition problem, especially in the ...
International audienceIn this paper, an algorithmic scheme is proposed to estimate different local c...
SIGLEAvailable from British Library Document Supply Centre- DSC:D71253/87 / BLDSC - British Library ...
In this paper, we propose an algorithm that, from a maximum error and a digital curve (4- or 8-conne...
This paper presents a structural description of digitized straight line segments and shows a scan co...
Softcover, ISBN 978-3-642-19866-3International audienceGiven a digital curve and a maximum error, we...
International audienceGiven a Digital Straight Line (DSL) of known characteristics (a, b, µ), we add...
International audienceGiven a Digital Straight Line (DSL) of known characteristics (a,b,\mu), we add...
International audienceGiven two Digital Straight Segments (DSS for short) of known minimal character...
International audienceGiven a digital straight line D of known characteristics (a, b, c), and given ...
International audienceIn this paper we take first steps in addressing the 3D Digital Subplane Recogn...
International audienceIn this paper, we arithmetically describe the convex hull ofa digital straight...
AbstractThe number of processors needed to recognize deterministic cfl's in logarithmic time on a CR...
International audienceOn a regular grid, the analysis of digital straight lines (DSL for short) has ...
AbstractThis paper deals with the problem of detecting every line component, a set of edge points cl...
International audienceThis paper concerns the digital circle recognition problem, especially in the ...
International audienceIn this paper, an algorithmic scheme is proposed to estimate different local c...
SIGLEAvailable from British Library Document Supply Centre- DSC:D71253/87 / BLDSC - British Library ...
In this paper, we propose an algorithm that, from a maximum error and a digital curve (4- or 8-conne...
This paper presents a structural description of digitized straight line segments and shows a scan co...
Softcover, ISBN 978-3-642-19866-3International audienceGiven a digital curve and a maximum error, we...