Abstract. In this paper we propose a quadratic programming approach to computing the edit distance of graphs. Whereas the standard edit distance is defined with respect to a minimum-cost edit path between graphs, we introduce the notion of fuzzy edit paths between graphs and provide a quadratic programming formulation for the minimization of fuzzy edit costs. Experiments on real-world graph data demonstrate that our proposed method is able to outperform the standard edit distance method in terms of recognition accuracy on two out of three data sets.
International audienceThe graph edit distance (GED) is a widely used distance measure for attributed...
We model the edit distance as a function in a labelling space. A labelling space is an Euclidean spa...
International audienceGraph edit distance corresponds to a flexible graph dissim-ilarity measure. Un...
Computing efficiently a robust measure of similarity or dissimilarity between graphs is a major chal...
The Graph Edit Distance (GED) is a flexible measure of dissimilarity between graphs which arises in ...
International audienceThe graph edit distance (GED) measures the amount of distortion needed to tran...
Graph edit distance (GED) is a powerful and flexible graph matching paradigm that can be used to add...
Graph edit distance is one of the most flexible mechanisms for error-tolerant graph matching. Its ke...
Graph edit distance measures the distance between two graphs as the number of elementary operations ...
International audienceThis paper presents a new Mixed Integer Linear Program (MILP) formulation for ...
The basic idea of a recent graph matching framework is to reduce the problem of graph edit distance ...
International audienceOne of the most popular distance measures between a pair of graphs is the Grap...
10.1016/j.patrec.2014.04.015We present a new algorithm to compute the Graph Edit Distance in a sub-o...
International audienceGraph edit distance (GED) is a powerful and flexible graph matching paradigm t...
Approximation of graph edit distance in polynomial time enables us to compare large, arbitrarily lab...
International audienceThe graph edit distance (GED) is a widely used distance measure for attributed...
We model the edit distance as a function in a labelling space. A labelling space is an Euclidean spa...
International audienceGraph edit distance corresponds to a flexible graph dissim-ilarity measure. Un...
Computing efficiently a robust measure of similarity or dissimilarity between graphs is a major chal...
The Graph Edit Distance (GED) is a flexible measure of dissimilarity between graphs which arises in ...
International audienceThe graph edit distance (GED) measures the amount of distortion needed to tran...
Graph edit distance (GED) is a powerful and flexible graph matching paradigm that can be used to add...
Graph edit distance is one of the most flexible mechanisms for error-tolerant graph matching. Its ke...
Graph edit distance measures the distance between two graphs as the number of elementary operations ...
International audienceThis paper presents a new Mixed Integer Linear Program (MILP) formulation for ...
The basic idea of a recent graph matching framework is to reduce the problem of graph edit distance ...
International audienceOne of the most popular distance measures between a pair of graphs is the Grap...
10.1016/j.patrec.2014.04.015We present a new algorithm to compute the Graph Edit Distance in a sub-o...
International audienceGraph edit distance (GED) is a powerful and flexible graph matching paradigm t...
Approximation of graph edit distance in polynomial time enables us to compare large, arbitrarily lab...
International audienceThe graph edit distance (GED) is a widely used distance measure for attributed...
We model the edit distance as a function in a labelling space. A labelling space is an Euclidean spa...
International audienceGraph edit distance corresponds to a flexible graph dissim-ilarity measure. Un...
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