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COCO
2004
Springer
2004
Springer
Separating Complexity Classes Using Structural Properties
We study the robustness of complete sets for various complexity classes. A complete set A is robust if for any f(n)-dense set S ∈ P, A−S is still complete, where f(n) ranges from log(n), polynomial, to subexponential. We show that robustness can be used to separate complexity classes: • for every ≤p m-complete set A for EXP and any subexponential dense sets S ∈ P, A − S is still Turing complete and under a reasonable hardness assumption even ≤p m-complete. • For EXP and the delta levels of the exponential hierarchy we show that for every Turing complete set A and any log-dense set S ∈ P, A − S is still Turing complete. • There exists a 3-truth-table complete set A for EEXPSPACE, and a log-dense set S ∈ P such that A − S is not Turing complete. This implies that settling this issue for EEXP will either separate P from PSPACE or PH from EXP. • We show that the robustness results for EXP and the delta levels of the exponential hierarchy do not relativize.
Real-time Traffic| Added | 01 Jul 2010 |
| Updated | 01 Jul 2010 |
| Type | Conference |
| Year | 2004 |
| Where | COCO |
| Authors | Harry Buhrman, Leen Torenvliet |
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