Tutte matrix: Difference between revisions
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* {{cite journal|url= http://jlms.oxfordjournals.org/cgi/reprint/s1-22/2/107.pdf|title= The factorization of linear graphs. | * {{cite journal|url= http://jlms.oxfordjournals.org/cgi/reprint/s1-22/2/107.pdf|title= The factorization of linear graphs. | ||
|accessdate= 2008-06-15|author= W.T. Tutte|authorlink=W. T. Tutte|year= 1947|month= April|volume=22|journal=J. London Math. Soc.|pages=107-111|doi=10.1112/jlms/s1-22.2.107}} | |accessdate= 2008-06-15|author= W.T. Tutte|authorlink=W. T. Tutte|year= 1947|month= April|volume=22|journal=J. London Math. Soc.|pages=107-111|doi=10.1112/jlms/s1-22.2.107}} | ||
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Latest revision as of 06:01, 31 October 2024
In graph theory, the Tutte matrix of a graph G = (V,E) is a matrix used to determine the existence of a perfect matching: that is, a set of edges which is incident with each vertex exactly once.
If the set of vertices V has 2n elements then the Tutte matrix is a 2n × 2n matrix A with entries
where the xij are indeterminates. The determinant of this skew-symmetric matrix is then a polynomial (in the variables xij, i<j ): this coincides with the square of the pfaffian of the matrix A and is non-zero (as a polynomial) if and only if a perfect matching exists. (It should be noted that this is not the Tutte polynomial of G.)
The Tutte matrix is a generalisation of the Edmonds matrix for a balanced bipartite graph.
References
- R. Motwani, P. Raghavan (1995). Randomized Algorithms. Cambridge University Press.
- Allen B. Tucker (2004). Computer Science Handbook. CRC Press. ISBN 158488360X.
- W.T. Tutte (April 1947). "The factorization of linear graphs.". J. London Math. Soc. 22: 107-111. DOI:10.1112/jlms/s1-22.2.107. Retrieved on 2008-06-15. Research Blogging.