Comparing Morse Complexes Using Optimal Transport: An Experimental Study

09/09/2023

∙

Morse complexes and Morse-Smale complexes are topological descriptors popular in topology-based visualization. Comparing these complexes plays an important role in their applications in feature correspondences, feature tracking, symmetry detection, and uncertainty visualization. Leveraging recent advances in optimal transport, we apply a class of optimal transport distances to the comparative analysis of Morse complexes. Contrasting with existing comparative measures, such distances are easy and efficient to compute, and naturally provide structural matching between Morse complexes. We perform an experimental study involving scientific simulation datasets and discuss the effectiveness of these distances as comparative measures for Morse complexes. We also provide an initial guideline for choosing the optimal transport distances under various data assumptions.

READ FULL TEXT

Comparing Morse Complexes Using Optimal Transport: An Experimental Study

Optimal Transport in the Face of Noisy Data

Unbalanced Optimal Transport meets Sliced-Wasserstein

Geometric Losses for Distributional Learning

Towards Optimal Transport with Global Invariances

The transport problem for non-additive measures

Simultaneous Multiple-Prompt Guided Generation Using Differentiable Optimal Transport

Improving Approximate Optimal Transport Distances using Quantization

Comparing Morse Complexes Using Optimal Transport: An Experimental Study

Related Research

Optimal Transport in the Face of Noisy Data

Unbalanced Optimal Transport meets Sliced-Wasserstein

Geometric Losses for Distributional Learning

Towards Optimal Transport with Global Invariances

The transport problem for non-additive measures

Simultaneous Multiple-Prompt Guided Generation Using Differentiable Optimal Transport

Improving Approximate Optimal Transport Distances using Quantization