Title :
Average dependence and random oracles
Author :
Kurtz, Stuart A. ; Mahaney, Stephen R. ; Royer, James S.
Author_Institution :
Dept. of Comput. Sci., Chicago Univ., IL, USA
Abstract :
A reconstruction of the foundations of complexity theory relative to random oracles is begun. The goals are to identify the simple, core mathematical principles behind randomness; to use these principles to push hard on the current boundaries of randomness; and to eventually apply these principles in unrelativized complexity. The focus in this work is on quantifying the degree of separation between NPR and coNPR relative to a random oracle R. A technique called average dependence is introduced and used to investigate what is the best lower bound on the size of nondeterministic circuits that accept coNPR sets and how close a coNPR set can come to `approximating´ an arbitrary NPR set. The results show that the average dependence technique is a powerful method for addressing certain random oracle questions but that there is still much room for improvement. Some open questions are briefly discussed
Keywords :
computational complexity; random processes; average dependence; complexity theory; degree of separation; dependence technique; lower bound; nondeterministic circuits; random oracles; randomness; unrelativized complexity; Circuits; Complexity theory; Computer science; Information science; Measurement standards; Strontium;
Conference_Titel :
Structure in Complexity Theory Conference, 1992., Proceedings of the Seventh Annual
Conference_Location :
Boston, MA
Print_ISBN :
0-8186-2955-X
DOI :
10.1109/SCT.1992.215405
