Topology-Preserving Line Densification for Creating Contiguous Cartograms
By: Nihal Z. Miaji , Adi Singhania , Matthias E. Goh and more
Potential Business Impact:
Makes maps show data accurately without breaking.
Cartograms depict geographic regions with areas proportional to quantitative data. However, when created using density-equalizing map projections, cartograms may exhibit invalid topologies if boundary polygons are drawn using only a finite set of vertices connected by straight lines. Here we introduce a method for topology-preserving line densification that guarantees that cartogram regions remain connected and non-overlapping when using density-equalizing map projections. By combining our densification technique with a flow-based cartogram generator, we present a robust framework for strictly topology-preserving cartogram construction. Quantitative evaluations demonstrate that the proposed algorithm produces cartograms with greater accuracy and speed than alternative methods while maintaining comparable shape fidelity.
Similar Papers
Extremely Scalable Distributed Computation of Contour Trees via Pre-Simplification
Computational Geometry
Makes big data analysis faster and use less memory.
Learning-based density-equalizing map
Graphics
Makes shapes change smoothly without breaking.
Stability of 0-dimensional persistent homology in enriched and sparsified point clouds
Algebraic Topology
Helps understand animal homes with math.