Основні поняття
This paper proposes a novel framework for studying optimal parallel transport between vector fields on connection graphs, which generalizes the Wasserstein distance and the Beckmann problem from standard graphs to connection graphs.
Анотація
The paper explores the intersection of the graph connection Laplacian and discrete optimal transport to propose a framework for studying optimal parallel transport between vector fields on connection graphs. It establishes feasibility conditions for the resulting convex optimization problem, and then studies the duality theory - establishing strong duality for the connection Beckmann problem and a quadratically regularized variant. The paper also provides a detailed analysis of the duality correspondence, which allows converting between primal and dual solutions. Finally, the proposed model is implemented across several examples using both synthetic and real-world datasets.
The key contributions are:
- Proposing a framework for optimal parallel transport between vector fields on connection graphs, generalizing the Wasserstein distance and Beckmann problem.
- Analyzing the feasibility of the problem in detail, identifying conditions under which the problem is feasible.
- Establishing strong duality for the connection Beckmann problem and a quadratically regularized variant, and deriving duality correspondence to convert between primal and dual solutions.
- Implementing the model on various datasets and providing visual intuition of the optimal flows on the underlying graphs.
Статистика
The paper does not contain any specific numerical data or metrics. It focuses on the theoretical analysis and formulation of the optimal parallel transport problem on connection graphs.
Цитати
"In this paper we generalize the Beckmann problem to a class of graphs known as connection graphs, which can be understood in this case as undirected and weighted graphs equipped with a orthogonal matrix on each edge."
"Our study establishes feasibility conditions for the resulting convex optimization problem on connection graphs. Furthermore, we establish strong duality for the so-called connection Beckmann problem, and extend our analysis to encompass strong duality and duality correspondence for a quadratically regularized variant."