We introduce and analyze NetOTC, a procedure for the comparison and soft alignment of weighted networks. Given two networks and a cost function relating their vertices, NetOTC finds an appropriate coupling of their associated random walks having minimum expected cost. The minimizing cost provides a numerical measure of the difference between the networks, while the optimal transport plan itself provides interpretable, probabilistic alignments of the vertices and edges of the two networks. The cost function employed can be based, for example, on vertex degrees, externally defined features, or Euclidean embeddings. Coupling of the full random walks, rather than their stationary distributions, ensures that NetOTC captures local and global info...
In this dissertation, we consider the problem of multiple unicast sessions over directed acyclic gra...
In this paper we propose a graph matching algorithm which uses random walks to compute topological f...
Network alignment refers to the problem of finding a bijective mapping across vertices of two or mor...
We present a novel framework based on optimal transport for the challenging problem of comparing gra...
National audienceGraph matching for shape comparison or network analysis is a challenging issue in m...
The Network Alignment problem is an NP-complete Combinatorial Optimization problem in graphs. The go...
The Network Alignment problem is an NP-complete Combinatorial Optimization problem in graphs. The go...
Network alignment refers to the problem of matching the vertex sets of two unlabeled graphs, which c...
Motivation: Network comparison is a computationally intractable problem with important applications ...
Graph-based systems and data analysis methods have become critical tools in many fields as they can ...
Graphs offer a simple yet meaningful representation of relationships between data. This representati...
When given a collection of graphs on over-lapping, but possibly non-identical, vertex sets, many inf...
With the impressive growth of available data and the flexibility of network modelling, the problem o...
Abstract Background In addition to component-based comparative approaches, network alignments provid...
In this article we discuss the problem of graph alignment, which has been longly referred to for the...
In this dissertation, we consider the problem of multiple unicast sessions over directed acyclic gra...
In this paper we propose a graph matching algorithm which uses random walks to compute topological f...
Network alignment refers to the problem of finding a bijective mapping across vertices of two or mor...
We present a novel framework based on optimal transport for the challenging problem of comparing gra...
National audienceGraph matching for shape comparison or network analysis is a challenging issue in m...
The Network Alignment problem is an NP-complete Combinatorial Optimization problem in graphs. The go...
The Network Alignment problem is an NP-complete Combinatorial Optimization problem in graphs. The go...
Network alignment refers to the problem of matching the vertex sets of two unlabeled graphs, which c...
Motivation: Network comparison is a computationally intractable problem with important applications ...
Graph-based systems and data analysis methods have become critical tools in many fields as they can ...
Graphs offer a simple yet meaningful representation of relationships between data. This representati...
When given a collection of graphs on over-lapping, but possibly non-identical, vertex sets, many inf...
With the impressive growth of available data and the flexibility of network modelling, the problem o...
Abstract Background In addition to component-based comparative approaches, network alignments provid...
In this article we discuss the problem of graph alignment, which has been longly referred to for the...
In this dissertation, we consider the problem of multiple unicast sessions over directed acyclic gra...
In this paper we propose a graph matching algorithm which uses random walks to compute topological f...
Network alignment refers to the problem of finding a bijective mapping across vertices of two or mor...