Traditionally schematized maps make extensive use of curves. However, automated methods for schematization are mostly restricted to straight lines. We present a generic framework for topology-preserving curved schematization that allows a choice of quality measures and curve types. Our fully-automated approach does not need critical points or salient features. We illustrate our framework with Bézier curves and circular arcs
Generating surfaces from spatial curves with topology constraints is a fundamental task in computer ...
We present an efficient method for displaying curves and surfaces defined by implicit equations in s...
Many map features, such as administrative borders, coastlines, roads or rivers, are conventionally r...
Traditionally schematised maps make extensive use of curves. However, automated methods for schemati...
Traditionally schematized maps make extensive use of curves. However, automated methods for schemati...
Hand-drawn schematized maps traditionally make extensive use of curves. However, there are few autom...
Hand-drawn schematized maps traditionally make extensive use of curves. However, there are few autom...
For high-level analysis of 3D shapes, we require an abstract representation of geometric data. Typic...
We propose a new topological data structure for repre-senting a set of polygonal curves embedded in ...
Figure 1: Our system takes as input a wireframe model produced from a 3D curve sketch, and outputs a...
A framework to validate and generate curved nodal high-order meshes on Computer-Aided Design (CAD) s...
We introduce a general framework for processing a set of curves defined on a continuous two-dimensio...
We present an algorithm to compute schematic maps with circular arcs. Our algorithm iteratively repl...
Generating surfaces from spatial curves with topology constraints is a fundamental task in computer ...
We present an efficient method for displaying curves and surfaces defined by implicit equations in s...
Many map features, such as administrative borders, coastlines, roads or rivers, are conventionally r...
Traditionally schematised maps make extensive use of curves. However, automated methods for schemati...
Traditionally schematized maps make extensive use of curves. However, automated methods for schemati...
Hand-drawn schematized maps traditionally make extensive use of curves. However, there are few autom...
Hand-drawn schematized maps traditionally make extensive use of curves. However, there are few autom...
For high-level analysis of 3D shapes, we require an abstract representation of geometric data. Typic...
We propose a new topological data structure for repre-senting a set of polygonal curves embedded in ...
Figure 1: Our system takes as input a wireframe model produced from a 3D curve sketch, and outputs a...
A framework to validate and generate curved nodal high-order meshes on Computer-Aided Design (CAD) s...
We introduce a general framework for processing a set of curves defined on a continuous two-dimensio...
We present an algorithm to compute schematic maps with circular arcs. Our algorithm iteratively repl...
Generating surfaces from spatial curves with topology constraints is a fundamental task in computer ...
We present an efficient method for displaying curves and surfaces defined by implicit equations in s...
Many map features, such as administrative borders, coastlines, roads or rivers, are conventionally r...