2011
DOI: 10.1007/978-3-642-18381-2_46
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Partition into Triangles on Bounded Degree Graphs

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Cited by 15 publications
(27 citation statements)
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“…twelve in bipartite graph) is N P-complete, using the Impossibility Theorem, the result follows for the first part of the corollary. In [25], the authors proved that Partition into triangles remains N P-complete for graph of maximum degree four and the desired result is obtained using Transformation 2 and Transformation 3. …”
Section: Corollarymentioning
confidence: 95%
“…twelve in bipartite graph) is N P-complete, using the Impossibility Theorem, the result follows for the first part of the corollary. In [25], the authors proved that Partition into triangles remains N P-complete for graph of maximum degree four and the desired result is obtained using Transformation 2 and Transformation 3. …”
Section: Corollarymentioning
confidence: 95%
“…Note that in strong contrast to this, K 3 -Partition is linear-time solvable on graphs with maximum degree three [16]. Furthermore, P 3 -Partition is NP-complete on chordal graphs, while K 3 -Partition is polynomial-time solvable in this case [7].…”
Section: Star Partitionmentioning
confidence: 89%
“…On the downside, P k -Partition (for fixed k ≥ 3) remains NP-complete on planar bipartite graphs [9]; this hardness result generalizes to H-Partition on planar graphs for any outerplanar pattern H with at least three vertices [2]. Partitioning into triangles, that is, K 3 -Partition, is polynomial-time solvable on chordal graphs [7] and linear-time solvable on graphs of maximum degree three [16].…”
Section: Star Partitionmentioning
confidence: 90%
“…For instance, van Rooij et al [RKNB13] have shown that the PARTITION INTO TRIANGLES problem restricted to graphs 7. 1.…”
Section: The Easiest Np-complete Sat(·) Problemmentioning
confidence: 99%