- Cut (graph theory)
In graph theory, a cut is a partition of the vertices of a graph into two disjoint subsets. The cut-set of the cut is the set of edges whose end points are in different subsets of the partition. Edges are said to be crossing the cut if they are in its cut-set.
In an unweighted undirected graph, the size or weight of a cut is the number of edges crossing the cut. In a weighted graph, the same term is defined by the sum of the weights of the edges crossing the cut.
In a flow network, an s-t cut is a cut that requires the source and the sink to be in different subsets, and its cut-set only consists of edges going from the source's side to the sink's side. The capacity of an s-t cut is defined by the sum of capacity of each edge in the cut-set.
The cut of a graph can sometimes refer to its cut-set instead of the partition.
- A cut C = (S,T) is a partition V of a graph G = (V,E).
- An s-t cut C = (S,T) of a network N = (V,E) is a cut of N such that and , where s and t are the source and the sink of N respectively.
- The cut-set of a cut C = (S,T) is the set .
- The size of a cut C = (S,T) is the number of edges in the cut-set. If the edges are weighted, the value of the cut is the sum of the weights.
A cut is minimum if the size of the cut is not larger than the size of any other cut. The illustration on the right shows a minimum cut: the size of this cut is 2, and there is no cut of size 1 because the graph is bridgeless.
The max-flow min-cut theorem proves that the maximum network flow and the sum of the cut-edge weights of any minimum cut that separates the source and the sink are equal. There are polynomial-time methods to solve the min-cut problem, notably the Edmonds-Karp algorithm.
A cut is maximum if the size of the cut is not smaller than the size of any other cut. The illustration on the right shows a maximum cut: the size of the cut is equal to 5, and there is no cut of size |E| because the graph is not bipartite (there is an odd cycle).
In general, finding a maximum cut is computationally hard. The max-cut problem is one of Karp's 21 NP-complete problems. The max cut problem is also APX-hard, meaning that there is no polynomial-time approximation scheme for it unless P = NP.
Note that min-cut and max-cut are not dual problems in the linear programming sense, even though one gets from one problem to other by changing min to max in the objective function. The max-flow problem is the dual of the min-cut problem.
The Sparsest cut problem is to bipartition the vertices so as to minimize the ratio of the number of edges across the cut divided by the number of vertices in the smaller half of the partition. This objective function favors solutions that are both sparse (few edges crossing the cut) and balanced (close to a bisection). The problem is known to be NP-Hard, and the best known algorithm is an approximation due to Arora, Rao & Vazirani (2009).
- Arora, Sanjeev; Rao, Satish; Vazirani, Umesh (2009), "Expander flows, geometric embeddings and graph partitioning", J. ACM (ACM) 56 (2): 1–37, doi:10.1145/1502793.1502794, ISSN 0004-5411
- Thomas H. Cormen, Charles E. Leiserson, Ronald L. Rivest, and Clifford Stein (2001). Introduction to Algorithms, Second Edition. MIT Press and McGraw-Hill. pp. 563,655,1043. ISBN 0-262-03293-7.
- Michael R. Garey and David S. Johnson (1979). Computers and Intractability: A Guide to the Theory of NP-Completeness. W.H. Freeman. ISBN 0-7167-1045-5. A2.2: ND16, pg.210.
- M. X. Goemans, and D. P. Williamson, Improved approximation algorithms for maximum cut and satisfiability problems using semidefinite programming, Journal of the ACM, 42, 6 (Nov. 1995), 1115-1145
- R. M. Karp, Reducibility among combinatorial problems, in R. E. Miller and J. W. Thacher (eds.), Complexity of Computer Computation, Plenum Press, New York, 85-103 (1972)
- S. Khot, G. Kindler, E. Mossel, and R. O’Donnell, Optimal inapproximability results for MAX-CUT and other two-variable CSPs?, In Proceedings of the 45th IEEE Symposium on Foundations of Computer Science, pp. 146–154, 2004.
- Vijay V. Vazirani (2004). Approximation Algorithms. Springer. pp. 97–98. ISBN 3540653678.
- Meira, Luis A. A.. "Semideﬁnite Programming Based Algorithms for the Sparsest Cut Problem". http://www.ic.unicamp.br/~fkm/publication/Rairo11.pdf. Retrieved 6 September 2011.
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