The general label-placement problem consists in labeling a set of features (points, lines, regions) given a set of candidates (rectangles, circles, ellipses, irregularly shaped labels) for each feature. The problem arises when annotating classical cartographical maps, diagrams, or graph drawings. The size of a labeling is the number of features that receive pairwise nonintersecting candidates. Finding an optimal solution, i.e., a labeling of maximum size, is NP-hard. We present an approach to attack the problem in its full generality. The key idea is to separate the geometric part from the combinatorial part of the problem. The latter is captured by the conflict graph of the candidates. We present a set of rules that simplify the conflict g...
Motivated by applications in cartography and computer graph-ics, we study a version of the map-label...
The objective of the point-feature cartographic label placement problem (PFCLP) is to give more legi...
Annotating maps, graphs, and diagrams with pieces of text is an important step in information visual...
The general label-placement problem consists in labeling a set of features (points, lines, regions) ...
The general label-placement problem consists in labeling a set of features (points, lines, regions) ...
The general map labeling problem consists in labeling a set of sites (points, lines, regions) given ...
A major factor affecting the clarity of graphical displays that include text labels is the degree to...
We examine the computational complexity of cartographic label placement, a problem derived from the ...
The general map labeling problem consists in labeling a set of sites (points, lines, regions) given ...
A major factor affecting the clarity of graphical displays that include text labels is the degree to...
A major factor affecting the clarity of graphical displays that include text labels is the degree to...
The cartographic label placement problem is an important task in automated cartography and Geographi...
A major factor affecting the clarity of graphical displays that include text labels is the degree h ...
Map labeling is a classical problem of cartography that has frequently been approached by combinator...
Motivated by applications in cartography and computer graph-ics, we study a version of the map-label...
The objective of the point-feature cartographic label placement problem (PFCLP) is to give more legi...
Annotating maps, graphs, and diagrams with pieces of text is an important step in information visual...
The general label-placement problem consists in labeling a set of features (points, lines, regions) ...
The general label-placement problem consists in labeling a set of features (points, lines, regions) ...
The general map labeling problem consists in labeling a set of sites (points, lines, regions) given ...
A major factor affecting the clarity of graphical displays that include text labels is the degree to...
We examine the computational complexity of cartographic label placement, a problem derived from the ...
The general map labeling problem consists in labeling a set of sites (points, lines, regions) given ...
A major factor affecting the clarity of graphical displays that include text labels is the degree to...
A major factor affecting the clarity of graphical displays that include text labels is the degree to...
The cartographic label placement problem is an important task in automated cartography and Geographi...
A major factor affecting the clarity of graphical displays that include text labels is the degree h ...
Map labeling is a classical problem of cartography that has frequently been approached by combinator...
Motivated by applications in cartography and computer graph-ics, we study a version of the map-label...
The objective of the point-feature cartographic label placement problem (PFCLP) is to give more legi...
Annotating maps, graphs, and diagrams with pieces of text is an important step in information visual...