Difference between revisions of "Open Problems:38"
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'''Question:''' Can one design an oracle that makes only $\operatorname{poly}(d/\epsilon)$ queries? If so, then among other things, this would lead to a tester for planarity in the bounded-degree model that makes only $\operatorname{poly}(1/\epsilon)$ queries, resolving an open question of Benjamini et al. {{cite|BenjaminiSS-08}}. | '''Question:''' Can one design an oracle that makes only $\operatorname{poly}(d/\epsilon)$ queries? If so, then among other things, this would lead to a tester for planarity in the bounded-degree model that makes only $\operatorname{poly}(1/\epsilon)$ queries, resolving an open question of Benjamini et al. {{cite|BenjaminiSS-08}}. | ||
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| + | == Update == | ||
| + | Levi and Ron {{cite|LeviR-13}} showed a partitioning oracle for bounded-degree minor-free graphs that makes only $(d/\epsilon)^{O(\log(1/\epsilon))}$ queries to the input graph for each query about the partition. | ||
Latest revision as of 14:58, 12 March 2013
| Suggested by | Krzysztof Onak |
|---|---|
| Source | Bertinoro 2011 |
| Short link | https://sublinear.info/38 |
A local partitioning oracle is defined in the paper of Hassidim, Kelner, Nguyen, and Onak [HassidimKNO-09], and an implicit construction of a partitioning oracle is shown in the earlier paper of Benjamini, Schramm, and Shapira [BenjaminiSS-08]. Partitioning oracles are a useful abstraction for approximation and testing algorithms in the bounded degree model.
The best known oracle for bounded-degree planar graphs makes at most $d^{\operatorname{poly}(1/\epsilon)}$ queries to the underlying graph to answer each query about the resulting partition, where $d$ is the bound on the maximum vertex degree in the graph. See [Onak-10] for a description of the method.
Question: Can one design an oracle that makes only $\operatorname{poly}(d/\epsilon)$ queries? If so, then among other things, this would lead to a tester for planarity in the bounded-degree model that makes only $\operatorname{poly}(1/\epsilon)$ queries, resolving an open question of Benjamini et al. [BenjaminiSS-08].
Update[edit]
Levi and Ron [LeviR-13] showed a partitioning oracle for bounded-degree minor-free graphs that makes only $(d/\epsilon)^{O(\log(1/\epsilon))}$ queries to the input graph for each query about the partition.
