On the computational power of random strings

Annals of Pure and Applied Logic 160 (2):214-228 (2009)
  Copy   BIBTEX

Abstract

There are two fundamental computably enumerable sets associated with any Kolmogorov complexity measure. These are the set of non-random strings and the overgraph. This paper investigates the computational power of these sets. It follows work done by Kummer, Muchnik and Positselsky, and Allender and co-authors. Muchnik and Positselsky asked whether there exists an optimal monotone machine whose overgraph is not tt-complete. This paper answers this question in the negative by proving that the overgraph of any optimal monotone machine, or any optimal process machine, is tt-complete. The monotone results are shown for both descriptional complexity Km and KM, the complexity measure derived from algorithmic probability. A distinction is drawn between two definitions of process machines that exist in the literature. For one class of process machines, designated strict process machines, it is shown that there is a universal machine whose set of non-random strings is not tt-complete

Categories

Keywords

Reprint years

DOI

10.1016/j.apal.2009.03.001

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,349

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Connected discourse and random strings: Effects of number of inputs on recognition and recall.Roy Lachman & D. James Dooling - 1968 - Journal of Experimental Psychology 77 (4):517.
The functional account of computing mechanisms.Gualtiero Piccinini - 2004 - PhilSci Archive.
Are binary codings universal?Cristian Calude & Cezar Câmpeanu - 1996 - Complexity 1 (5):47-50.
Computing mechanisms.Gualtiero Piccinini - 2007 - Philosophy of Science 74 (4):501-526.
A Note on the Computation of the Mean Random Consistency Index of the Analytic Hierarchy Process (Ahp).V. M. Rao Tummala & Hong Ling - 1998 - Theory and Decision 44 (3):221-230.
Recursive events in random sequences.George Davie - 2001 - Archive for Mathematical Logic 40 (8):629-638.
On the Topological Size of Sets of Random Strings.M. Zimand - 1986 - Mathematical Logic Quarterly 32 (6):81-88.
An incomplete set of shortest descriptions.Frank Stephan & Jason Teutsch - 2012 - Journal of Symbolic Logic 77 (1):291-307.
What can be efficiently reduced to the Kolmogorov-random strings?Eric Allender, Harry Buhrman & Michal Koucký - 2006 - Annals of Pure and Applied Logic 138 (1):2-19.
The K -Degrees, Low for K Degrees,and Weakly Low for K Sets.Joseph S. Miller - 2009 - Notre Dame Journal of Formal Logic 50 (4):381-391.
Computational cognitive modeling the source of power and other related issues.Ron Sun - unknown
Regular relations for temporal propositions.T. Fernando - unknown
The World is Either Algorithmic or Mostly Random.Hector Zenil - unknown
Random closed sets viewed as random recursions.R. Daniel Mauldin & Alexander P. McLinden - 2009 - Archive for Mathematical Logic 48 (3-4):257-263.
Immunity and Hyperimmunity for Sets of Minimal Indices.Frank Stephan & Jason Teutsch - 2008 - Notre Dame Journal of Formal Logic 49 (2):107-125.

Analytics

Added to PP
2013-12-22

Downloads
25 (#616,937)

6 months
13 (#182,749)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

No citations found.

Add more citations

References found in this work

Degrees of Monotone Complexity.William C. Calhoun - 2006 - Journal of Symbolic Logic 71 (4):1327 - 1341.

Add more references