Computing from projections of random points

, &
Journal of Mathematical Logic 20 (1):1950014 (2019)
  Copy   BIBTEX

Abstract

We study the sets that are computable from both halves of some (Martin–Löf) random sequence, which we call 1/2-bases. We show that the collection of such sets forms an ideal in the Turing degrees that is generated by its c.e. elements. It is a proper subideal of the K-trivial sets. We characterize 1/2-bases as the sets computable from both halves of Chaitin’s Ω, and as the sets that obey the cost function c(x,s)=Ωs−Ωx−−−−−−−√. Generalizing these results yields a dense hierarchy of subideals in the K-trivial degrees: For k<n, let Bk/n be the collection of sets that are below any k out of n columns of some random sequence. As before, this is an ideal generated by its c.e. elements and the random sequence in the definition can always be taken to be Ω. Furthermore, the corresponding cost function characterization reveals that Bk/n is independent of the particular representation of the rational k/n, and that Bp is properly contained in Bq for rational numbers p<q. These results are proved using a generalization of the Loomis–Whitney inequality, which bounds the measure of an open set in terms of the measures of its projections. The generality allows us to analyze arbitrary families of orthogonal projections. As it turns out, these do not give us new subideals of the K-trivial sets; we can calculate from the family which Bp it characterizes. We finish by studying the union of Bp for p<1; we prove that this ideal consists of the sets that are robustly computable from some random sequence. This class was previously studied by Hirschfeldt [D. R. Hirschfeldt, C. G. Jockusch, R. Kuyper and P. E. Schupp, Coarse reducibility and algorithmic randomness, J. Symbolic Logic81(3) (2016) 1028–1046], who showed that it is a proper subclass of the K-trivial sets. We prove that all such sets are robustly computable from Ω, and that they form a proper subideal of the sets computable from every (weakly) LR-hard random sequence. We also show that the ideal cannot be characterized by a cost function, giving the first such example of a Σ03 subideal of the K-trivial sets.

Categories

Keywords

Reprint years

2020

DOI

10.1142/s0219061319500144

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 92,227

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

André Nies. Lowness properties and randomness. Advances in Mathematics, vol. 197 , no. 1, pp. 274–305. - Bjørn Kjos-Hanssen, André Nies, and Frank Stephan. Lowness for the class of Schnorr random reals. SIAM Journal on Computing, vol. 35 , no. 3, pp. 647–657. - Noam Greenberg and Joseph S. Miller. Lowness for Kurtz randomness. The Journal of Symbolic Logic, vol. 74 , no. 2, pp. 665–678. - Laurent Bienvenu and Joseph S. Miller. Randomness and lowness notions via open covers. Annals of Pure and Applied Logic, vol. 163 , no. 5, pp. 506–518. - Johanna N. Y. Franklin, Frank Stephan, and Liang. Yu Relativizations of randomness and genericity notions. The Bulletin of the London Mathematical Society, vol. 43 , no. 4, pp. 721–733. - George Barmpalias, Joseph S. Miller, and André Nies. Randomness notions and partial relativization. Israel Journal of Mathematics, vol. 191 , no. 2, pp. 791–816. [REVIEW]Johanna N. Y. Franklin - 2013 - Bulletin of Symbolic Logic 19 (1):115-118.
Reviewed Work(s): Lowness properties and randomness. Advances in Mathematics, vol. 197 by André Nies; Lowness for the class of Schnorr random reals. SIAM Journal on Computing, vol. 35 by Bjørn Kjos-Hanssen; André Nies; Frank Stephan; Lowness for Kurtz randomness. The Journal of Symbolic Logic, vol. 74 by Noam Greenberg; Joseph S. Miller; Randomness and lowness notions via open covers. Annals of Pure and Applied Logic, vol. 163 by Laurent Bienvenu; Joseph S. Miller; Relativizations of randomness and genericity notions. The Bulletin of the London Mathematical Society, vol. 43 by Johanna N. Y. Franklin; Frank Stephan; Liang Yu; Randomness notions and partial relativization. Israel Journal of Mathematics, vol. 191 by George Barmpalias; Joseph S. Miller; André Nies. [REVIEW]Johanna N. Y. Franklin - forthcoming - Association for Symbolic Logic: The Bulletin of Symbolic Logic.
Random closed sets viewed as random recursions.R. Daniel Mauldin & Alexander P. McLinden - 2009 - Archive for Mathematical Logic 48 (3-4):257-263.
Lowness for Kurtz randomness.Noam Greenberg & Joseph S. Miller - 2009 - Journal of Symbolic Logic 74 (2):665-678.
Two More Characterizations of K-Triviality.Noam Greenberg, Joseph S. Miller, Benoit Monin & Daniel Turetsky - 2018 - Notre Dame Journal of Formal Logic 59 (2):189-195.
Every 2-random real is Kolmogorov random.Joseph S. Miller - 2004 - Journal of Symbolic Logic 69 (3):907-913.
Randomness, relativization and Turing degrees.André Nies, Frank Stephan & Sebastiaan A. Terwijn - 2005 - Journal of Symbolic Logic 70 (2):515-535.
Benign cost functions and lowness properties.Noam Greenberg & André Nies - 2011 - Journal of Symbolic Logic 76 (1):289 - 312.
What a course on philosophy of computing is not.Vincent C. Müller - 2008 - APA Newsletter on Philosophy and Computers 8 (1):36-38.
A random set which only computes strongly jump-traceable C.e. Sets.Noam Greenberg - 2011 - Journal of Symbolic Logic 76 (2):700 - 718.
Women and the social construction of the computing culture: Evolving new forms of computing. [REVIEW]Joan Truckenbrod - 1993 - AI and Society 7 (4):345-357.
Theodore Baker, John Gill, and Robert Solovay. Relativizations of the =? question. SIAM journal on computing, vol. 4 , pp. 431–442. - Charles H. Bennett and John Gill. Relative to a random oracle A, PA ≠ NPA ≠ co-NPA with probability 1. SIAM journal on computing, vol. 10 , pp. 96–113. [REVIEW]Neil Immerman - 1986 - Journal of Symbolic Logic 51 (4):1061-1062.
Random generations of the countable random graph.Su Gao & A. Vershik - 2006 - Annals of Pure and Applied Logic 143 (1-3):79-86.
On random as a cause.Enrique Morata - 2015 - Academia.
The Initialization Problem in Quantum Computing.Subhash Kak - 1999 - Foundations of Physics 29 (2):267-279.

Analytics

Added to PP
2019-06-16

Downloads
15 (#951,632)

6 months
8 (#370,225)

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

Benign cost functions and lowness properties.Noam Greenberg & André Nies - 2011 - Journal of Symbolic Logic 76 (1):289 - 312.
Denjoy, Demuth and density.Laurent Bienvenu, Rupert Hölzl, Joseph S. Miller & André Nies - 2014 - Journal of Mathematical Logic 14 (1):1450004.
On strongly jump traceable reals.Keng Meng Ng - 2008 - Annals of Pure and Applied Logic 154 (1):51-69.

View all 7 references / Add more references