论文信息 - Lower Bounds for Existential Pebble Games and k-Consistency Tests

Lower Bounds for Existential Pebble Games and k-Consistency Tests

The existential k-pebble game characterizes the expressive power of the existential-positive k-variable fragment of first-order logic on finite structures. The winner of the existential k-pebble game on two given finite structures can easily be determined in polynomial time, where the degree of the polynomial is linear in k. We show that this linear dependence on the parameter k is necessary by proving an unconditional polynomial lower bound for determining the winner in the existential k-pebble game on finite structures. Establishing strong k-consistency is a well-known heuristic for solving the constraint satisfaction problem (CSP). By the game characterization of Kolaitis and Vardi our result implies a lower bound on every algorithm that decides if strong k-consistency can be established for a given CSP-instance.

Christoph Berkholz

[1] Phokion G. Kolaitis,et al. On the Complexity of Existential Pebble Games , 2003, CSL.

[2] Martin Grohe. Equivalence in Finite-Variable Logics is Complete for Polynomial Time , 1999, Comb..

[3] Michael R. Fellows,et al. Parameterized Complexity , 1998 .

[4] Shigeki Iwata,et al. Classes of pebble games and complete problems , 1979, ACM '78.

[5] Phokion G. Kolaitis,et al. On the expressive power of datalog: tools and a case study , 1990, J. Comput. Syst. Sci..

[6] Phokion G. Kolaitis,et al. A Game-Theoretic Approach to Constraint Satisfaction , 2000, AAAI/IAAI.

[7] Andrei A. Bulatov,et al. On the Power of k -Consistency , 2007, ICALP.

[8] Phokion G. Kolaitis,et al. Constraint Satisfaction, Bounded Treewidth, and Finite-Variable Logics , 2002, CP.

[9] Stefan Szeider,et al. The Parameterized Complexity of Local Consistency , 2011, CP.

[10] Shigeki Iwata,et al. Some combinatorial game problems require Ω(nk) time , 1984, JACM.

[11] Phokion G. Kolaitis,et al. Conjunctive-query containment and constraint satisfaction , 1998, PODS.

[12] Martin C. Cooper. An Optimal k-Consistency Algorithm , 1989, Artif. Intell..

[13] Tomás Feder,et al. The Computational Structure of Monotone Monadic SNP and Constraint Satisfaction: A Study through Datalog and Group Theory , 1999, SIAM J. Comput..