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2ima00 [2016/05/26 12:18]
bmpjansen [Student lectures]
2ima00 [2016/05/26 12:27] (current)
bmpjansen [Student lectures]
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 [[http://​link.springer.com/​chapter/​10.1007%2F3-540-36379-3_25|Ton Kloks, C.M. Lee, Jiping Liu. New Algorithms for k-Face Cover, k-Feedback Vertex Set, and k-Disjoint Cycles on Plane and Planar Graphs]] (page 8 and further) [[http://​link.springer.com/​chapter/​10.1007%2F3-540-36379-3_25|Ton Kloks, C.M. Lee, Jiping Liu. New Algorithms for k-Face Cover, k-Feedback Vertex Set, and k-Disjoint Cycles on Plane and Planar Graphs]] (page 8 and further)
  
-I don't know which of the 2 approaches will be faster on the inputs we have; one has a worse polynomial term, the other has a worse factor f(k). I don't think it is feasible to implement both, given the time. Pick one of the two and go for it.+I don't know which of the 2 approaches will be faster on the inputs we have; one has a worse polynomial term, the other has a worse factor f(k). I don't think it is feasible to implement both, given the time. Pick one of the two and go for it. To **find** a tree decomposition,​ you can use one of the heuristics described in this paper: 
 + 
 +[[http://​dx.doi.org/​10.1016/​j.ic.2009.03.008|Hans L. Bodlaender, Arie M. C. A. Koster: 
 +Treewidth computations I. Upper bounds. Inf. Comput. 208(3): 259-275 (2010)]] 
 + 
 +Within the framework of iterative compression and you have *some* feedback vertex set X in your graph G, you can also make a tree decomposition by making a tree decomposition for the forest G - X (which is easy) and then adding all vertices of X to all bags. Afterwards, you can try to make it better by removing vertices from X from bags when the tree decomposition remains valid after removing a vertex from a bag.
  
 **Parameterized by solution size (iterative compression & randomized):​ Huib & Stefan.** **Parameterized by solution size (iterative compression & randomized):​ Huib & Stefan.**
2ima00.1464257927.txt.gz · Last modified: 2016/05/26 12:18 by bmpjansen