Temel Kavramlar
Matching cut, perfect matching cut, and disconnected perfect matching problems are NP-complete in graphs without induced paths of length 14 or longer, and can be solved in polynomial time in 4-chordal graphs.
Özet
The paper studies the computational complexity of three related problems on matching cuts in graphs:
- Matching cut (mc): Deciding if a given graph has a matching cut.
- Perfect matching cut (pmc): Deciding if a given graph has a perfect matching cut.
- Disconnected perfect matching (dpm): Deciding if a given graph has a disconnected perfect matching.
The main results are:
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Hardness results:
- mc, pmc, and dpm are NP-complete in {3P6, 2P7, P14}-free 8-chordal graphs.
- Under the Exponential Time Hypothesis (ETH), there is no 2^o(n) time algorithm for these problems on n-vertex {3P6, 2P7, P14}-free 8-chordal graphs.
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Positive results:
- dpm and pmc can be solved in polynomial time when restricted to 4-chordal graphs.
The hardness results unify and improve upon previous hardness results for these problems. The polynomial-time algorithms for 4-chordal graphs partially answer an open question on the complexity of pmc in k-chordal graphs.