Difference between revisions of "Publications/geraud.17.ismm"

From LRDE
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| title = Introducing the Dahu Pseudo-Distance
  
| title = Introducing the Dahu Pseudo-Distance
 
| booktitle = Mathematical Morphology and Its Application to Signal and Image Processing -- Proceedings of the 13th International Symposium on Mathematical Morphology (ISMM)
  
| booktitle = Mathematical Morphology and Its Application to Signal and Image Processing -- Proceedings of the 13th International Symposium on Mathematical Morphology (ISMM)
| opteditor = J. Angulo and F. Meyer and S. Velasco-Forero
 +
| editors = J Angulo, S Velasco-Forero, F Meyer
 
| optvolume = 0
  
| optvolume = 0
 
| series = Lecture Notes in Computer Science
  
| series = Lecture Notes in Computer Science
 
| address = Fontainebleau, France
  
| address = Fontainebleau, France
| optpages =
 
 
| publisher = Springer
  
| publisher = Springer
 
| lrdeinc = Publications/geraud.17.ismm.inc
  
| lrdeinc = Publications/geraud.17.ismm.inc
 
| note = To appear.
  
| note = To appear.
 
| lrdeprojects = Olena
  
| lrdeprojects = Olena
| abstract = The minimum barrier (MB) distance is defined as the minimal interval of gray-level values in an image along a path between two points, where the image is considered as a vertex-valued graph. Yet this definition does not fit with the interpretation of an image as an elevation mapi.e. a somehow continuous landscape. In this paper, based on the discrete set-valued continuity setting, we present a new discrete definition for this distance, which is compatible with this interpretation, while being free from digital topology issues. Amazingly, we show that the proposed distance is related to the morphological tree of shapes, which in addition allows for a fast and exact computation of this distance. That contrasts with the classical definition of the MB distance, where its fast computation is only an approximation.
 +
| abstract = The minimum barrier (MB) distance is defined as the minimal interval of gray-level values in an image along a path between two points, where the image is considered as a vertex-valued graph. Yet this definition does not fit with the interpretation of an image as an elevation map, i.e. a somehow continuous landscape. In this paper, based on the discrete set-valued continuity setting, we present a new discrete definition for this distance, which is compatible with this interpretation, while being free from digital topology issues. Amazingly, we show that the proposed distance is related to the morphological tree of shapeswhich in addition allows for a fast and exact computation of this distance. That contrasts with the classical definition of the MB distance, where its fast computation is only an approximation.
 
| lrdepaper = http://www.lrde.epita.fr/dload/papers/geraud.17.ismm.pdf
  
| lrdepaper = http://www.lrde.epita.fr/dload/papers/geraud.17.ismm.pdf
 
| lrdekeywords = Image
  
| lrdekeywords = Image
Line 29: Line 28:
 
Symposium on Mathematical Morphology (ISMM)<nowiki>}</nowiki>,
  
Symposium on Mathematical Morphology (ISMM)<nowiki>}</nowiki>,
 
year = <nowiki>{</nowiki>2017<nowiki>}</nowiki>,
  
year = <nowiki>{</nowiki>2017<nowiki>}</nowiki>,
opteditor = <nowiki>{</nowiki>J. Angulo and F. Meyer and S. Velasco-Forero<nowiki>}</nowiki>,
 +
editor = <nowiki>{</nowiki>J. Angulo and S. Velasco-Forero and F. Meyer<nowiki>}</nowiki>,
 
optvolume = <nowiki>{</nowiki>0<nowiki>}</nowiki>,
  
optvolume = <nowiki>{</nowiki>0<nowiki>}</nowiki>,
 
series = <nowiki>{</nowiki>Lecture Notes in Computer Science<nowiki>}</nowiki>,
  
series = <nowiki>{</nowiki>Lecture Notes in Computer Science<nowiki>}</nowiki>,
  +
month = may,
 
address = <nowiki>{</nowiki>Fontainebleau, France<nowiki>}</nowiki>,
  
address = <nowiki>{</nowiki>Fontainebleau, France<nowiki>}</nowiki>,
optpages = <nowiki>{</nowiki><nowiki>}</nowiki>,
  
month = <nowiki>{</nowiki>May<nowiki>}</nowiki>,
  
 
publisher = <nowiki>{</nowiki>Springer<nowiki>}</nowiki>,
  
publisher = <nowiki>{</nowiki>Springer<nowiki>}</nowiki>,
 
note = <nowiki>{</nowiki>To appear.<nowiki>}</nowiki>,
  
note = <nowiki>{</nowiki>To appear.<nowiki>}</nowiki>,

Revision as of 12:02, 20 March 2017

Authors
Thierry Géraud, Yongchao Xu, Edwin Carlinet, Nicolas Boutry
Where
Mathematical Morphology and Its Application to Signal and Image Processing -- Proceedings of the 13th International Symposium on Mathematical Morphology (ISMM)
Place
Fontainebleau, France
Type
inproceedings
Publisher
Springer
Projects
Olena
Keywords
Image
Date
2017-02-23

Abstract

The minimum barrier (MB) distance is defined as the minimal interval of gray-level values in an image along a path between two points, where the image is considered as a vertex-valued graph. Yet this definition does not fit with the interpretation of an image as an elevation map, i.e. a somehow continuous landscape. In this paper, based on the discrete set-valued continuity setting, we present a new discrete definition for this distance, which is compatible with this interpretation, while being free from digital topology issues. Amazingly, we show that the proposed distance is related to the morphological tree of shapeswhich in addition allows for a fast and exact computation of this distance. That contrasts with the classical definition of the MB distance, where its fast computation is only an approximation.

Documents

(some materials will be published here soon...)

Bibtex (lrde.bib)

@InProceedings{	  geraud.17.ismm,
  author	= {Thierry G\'eraud and Yongchao Xu and Edwin Carlinet and
		  Nicolas Boutry},
  title		= {Introducing the {D}ahu Pseudo-Distance},
  booktitle	= {Mathematical Morphology and Its Application to Signal and
		  Image Processing -- Proceedings of the 13th International
		  Symposium on Mathematical Morphology (ISMM)},
  year		= {2017},
  editor	= {J. Angulo and S. Velasco-Forero and F. Meyer},
  optvolume	= {0},
  series	= {Lecture Notes in Computer Science},
  month		= may,
  address	= {Fontainebleau, France},
  publisher	= {Springer},
  note		= {To appear.},
  abstract	= {The minimum barrier (MB) distance is defined as the
		  minimal interval of gray-level values in an image along a
		  path between two points, where the image is considered as a
		  vertex-valued graph. Yet this definition does not fit with
		  the interpretation of an image as an elevation map, i.e. a
		  somehow continuous landscape. In this paper, based on the
		  discrete set-valued continuity setting, we present a new
		  discrete definition for this distance, which is compatible
		  with this interpretation, while being free from digital
		  topology issues. Amazingly, we show that the proposed
		  distance is related to the morphological tree of shapes,
		  which in addition allows for a fast and exact computation
		  of this distance. That contrasts with the classical
		  definition of the MB distance, where its fast computation
		  is only an approximation.}
}





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