Serhiy Kosinov scite author profile

In this paper, we show how inexact graph matching (that is, the correspondence between sets of vertices of pairs of graphs) can be solved using the renormalization of projections of the vertices (as defined in this case by their connectivities) into the joint eigenspace of a pair of graphs and a form of relational clustering. An important feature of this eigenspace renormalization projection clustering (EPC) method is its ability to match graphs with different number of vertices. Shock graph-based shape matching is used to illustrate the model and a more objective method for evaluating the approach using random graphs is explored with encouraging results.

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Inexact Multisubgraph Matching Using Graph Eigenspace and Clustering Models

Kosinov

Caelli

2002

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In this paper we show how inexact multisubgraph matching can be solved using methods based on the projections of vertices (and their connections) into the eigenspaces of graphs-and associated clustering methods. Our analysis points to deficiencies of recent eigenspectra methods though demonstrates just how powerful full eigenspace methods can be for providing filters for such computationally intense problems. Also presented are some applications of the proposed method to shape matching, information retrieval and natural language processing.

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Inexact Graph Matching Using Eigen-Subspace Projection Clustering

Caelli

Kosinov

2004

Int. J. Patt. Recogn. Artif. Intell.

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Graph eigenspaces have been used to encode many different properties of graphs. In this paper we explore how such methods can be used for solving inexact graph matching (the matching of sets of vertices in one graph to those in another) having the same or different numbers of vertices. In this case we explore eigen-subspace projections and vertex clustering (EPS) methods. The correspondence algorithm enables the EPC method to discover a range of correspondence relationships from one-to-one vertex matching to that of inexact (many-to-many) matching of structurally similar subgraphs based on the similarities of their vertex connectivities defined by their positions in the common subspace. Examples in shape recognition and random graphs are used to illustrate this method.

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Evaluation of N-grams conflation approach in text-based information retrieval

Kosinov

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Abstract. This paper examines a conflation method based on the N-grams approach and evaluates its performance relative to the results achieved by other techniques such as Porter algorithm and successor variety stemming. In addition to that, an alternative way of enhancing the N-grams method, derived from the concept of inverse frequency weighing, is introduced and evaluated. The experimental results generated using standard collections ADI, CISI and Medlars show an improvement over the traditional conflation methods, as well as demonstrate the viability of the introduced inverse frequency multiplier technique.

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Visual Object Categorization using Distance-Based Discriminant Analysis

Kosinov

Marchand-Maillet

Pun

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Serhiy Kosinov

An eigenspace projection clustering method for inexact graph matching

Inexact Multisubgraph Matching Using Graph Eigenspace and Clustering Models

Inexact Graph Matching Using Eigen-Subspace Projection Clustering

Evaluation of N-grams conflation approach in text-based information retrieval

Visual Object Categorization using Distance-Based Discriminant Analysis

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