RELATIVE TO ANY NON-HYPERARITHMETIC SET

We prove that there is a structure, indeed a linear ordering, whose degree spectrum is the set of all non-hyperarithmetic degrees. We also show that degree spectra can distinguish measure from category.

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Π10 classes and strong degree spectra of relations

Journal of Symbolic Logic ◽

10.2178/jsl/1191333852 ◽

2007 ◽

Vol 72 (3) ◽

pp. 1003-1018 ◽

Cited By ~ 1

Author(s):

John Chisholm ◽

Jennifer Chubb ◽

Valentina S. Harizanov ◽

Denis R. Hirschfeldt ◽

Carl G. Jockusch ◽

...

Keyword(s):

Kolmogorov Complexity ◽

Initial Segment ◽

Truth Table ◽

Linear Ordering ◽

Computable Structures ◽

Degree Spectra

AbstractWe study the weak truth-table and truth-table degrees of the images of subsets of computable structures under isomorphisms between computable structures. In particular, we show that there is a low c.e. set that is not weak truth-table reducible to any initial segment of any scattered computable linear ordering. Countable subsets of 2ω and Kolmogorov complexity play a major role in the proof.

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Degree spectra of intrinsically c.e. relations

Journal of Symbolic Logic ◽

10.2307/2695024 ◽

2001 ◽

Vol 66 (2) ◽

pp. 441-469 ◽

Cited By ~ 4

Author(s):

Denis R. Hirschfeldt

Keyword(s):

Computable Structure ◽

Degree Spectra ◽

Degree Spectrum

AbstractWe show that for every c.e. degree a > 0 there exists an intrinsically c.e. relation on the domain of a computable structure whose degree spectrum is {0, a}. This result can be extended in two directions. First we show that for every uniformly c.e. collection of sets S there exists an intrinsically c.e. relation on the domain of a computable structure whose degree spectrum is the set of degrees of elements of S. Then we show that if α ∈ ω ∪ {ω} then for any α-c.e. degree a > 0 there exists an intrinsically α-c.e. relation on the domain of a computable structure whose degree spectrum {0, a}. All of these results also hold for m-degree spectra of relations.

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Degree spectra of relations on computable structures in the presence of Δ20 isomorphisms

Journal of Symbolic Logic ◽

10.2178/jsl/1190150105 ◽

2002 ◽

Vol 67 (2) ◽

pp. 697-720 ◽

Cited By ~ 2

Author(s):

Denis R. Hirschfeldt

Keyword(s):

Point Of View ◽

The Other ◽

Computable Structure ◽

Sufficient Condition ◽

Computable Structures ◽

Linear Orderings ◽

Degree Spectra ◽

Other Hand ◽

Infinite Degree ◽

Degree Spectrum

AbstractWe give some new examples of possible degree spectra of invariant relations on Δ20-categorical computable structures, which demonstrate that such spectra can be fairly complicated. On the other hand, we show that there are nontrivial restrictions on the sets of degrees that can be realized as degree spectra of such relations. In particular, we give a sufficient condition for a relation to have infinite degree spectrum that implies that every invariant computable relation on a Δ20-categorical computable structure is either intrinsically computable or has infinite degree spectrum. This condition also allows us to use the proof of a result of Moses [23] to establish the same result for computable relations on computable linear orderings.We also place our results in the context of the study of what types of degree-theoretic constructions can be carried out within the degree spectrum of a relation on a computable structure, given some restrictions on the relation or the structure. From this point of view we consider the cases of Δ20-categorical structures, linear orderings, and 1-decidable structures, in the last case using the proof of a result of Ash and Nerode [3] to extend results of Harizanov [14].

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THE COMPLEMENTS OF LOWER CONES OF DEGREES AND THE DEGREE SPECTRA OF STRUCTURES

Journal of Symbolic Logic ◽

10.1017/jsl.2015.59 ◽

2016 ◽

Vol 81 (3) ◽

pp. 997-1006 ◽

Cited By ~ 3

Author(s):

URI ANDREWS ◽

MINGZHONG CAI ◽

ISKANDER SH. KALIMULLIN ◽

STEFFEN LEMPP ◽

JOSEPH S. MILLER ◽

...

Keyword(s):

Turing Degrees ◽

Degree Spectra ◽

Degree Spectrum ◽

Image Position ◽

Countable Structure

AbstractWe study Turing degrees a for which there is a countable structure ${\cal A}$ whose degree spectrum is the collection {x : x ≰ a}. In particular, for degrees a from the interval [0′, 0″], such a structure exists if a′ = 0″, and there are no such structures if a″ > 0‴.

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Degree Spectra of Relations on Computable Structures

Bulletin of Symbolic Logic ◽

10.2307/421207 ◽

2000 ◽

Vol 6 (2) ◽

pp. 197-212 ◽

Cited By ~ 4

Author(s):

Denis R. Hirschfeldt

Keyword(s):

Model Theory ◽

Large Body ◽

Point Of View ◽

Linear Ordering ◽

Computable Model ◽

Computable Model Theory ◽

Degree Spectra ◽

Successor Relation ◽

The Subject ◽

Cover Material

There has been increasing interest over the last few decades in the study of the effective content of Mathematics. One field whose effective content has been the subject of a large body of work, dating back at least to the early 1960s, is model theory. (A valuable reference is the handbook [7]. In particular, the introduction and the articles by Ershov and Goncharov and by Harizanov give useful overviews, while the articles by Ash and by Goncharov cover material related to the topic of this communication.)Several different notions of effectiveness of model-theoretic structures have been investigated. This communication is concerned withcomputablestructures, that is, structures with computable domains whose constants, functions, and relations are uniformly computable.In model theory, we identify isomorphic structures. From the point of view of computable model theory, however, two isomorphic structures might be very different. For example, under the standard ordering of ω the success or relation is computable, but it is not hard to construct a computable linear ordering of type ω in which the successor relation is not computable. In fact, for every computably enumerable (c. e.) degree a, we can construct a computable linear ordering of type ω in which the successor relation has degree a. It is also possible to build two isomorphic computable groups, only one of which has a computable center, or two isomorphic Boolean algebras, only one of which has a computable set of atoms. Thus, for the purposes of computable model theory, studying structures up to isomorphism is not enough.

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TURING DEGREE SPECTRA OF DIFFERENTIALLY CLOSED FIELDS

Journal of Symbolic Logic ◽

10.1017/jsl.2016.73 ◽

2017 ◽

Vol 82 (1) ◽

pp. 1-25 ◽

Cited By ~ 2

Author(s):

DAVID MARKER ◽

RUSSELL MILLER

Keyword(s):

Turing Degree ◽

Turing Degrees ◽

Closed Field ◽

Degree Spectra ◽

Low Degree ◽

Closed Fields ◽

Degree Spectrum ◽

Countable Structure

AbstractThe degree spectrum of a countable structure is the set of all Turing degrees of presentations of that structure. We show that every nonlow Turing degree lies in the spectrum of some differentially closed field (of characteristic 0, with a single derivation) whose spectrum does not contain the computable degree 0. Indeed, this is an equivalence, for we also show that if this spectrum contained a low degree, then it would contain the degree 0. From these results we conclude that the spectra of differentially closed fields of characteristic 0 are exactly the jump-preimages of spectra of automorphically nontrivial graphs.

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Linear Ordering of the Chromatic Aggregate in Classical Symphonic Music

Music Theory Spectrum ◽

10.1525/mts.1996.18.1.02a00020 ◽

1996 ◽

Vol 18 (1) ◽

pp. 22-50 ◽

Cited By ~ 1

Author(s):

Henry Burnett ◽

Shaugn O'Donnell

Keyword(s):

Linear Ordering ◽

Symphonic Music

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Degree Spectra of Structures

Journal of Mathematical Sciences ◽

10.1007/s10958-021-05424-0 ◽

2021 ◽

Author(s):

I. Sh. Kalimullin ◽

V. L. Selivanov ◽

A. N. Frolov

Keyword(s):

Degree Spectra

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Exploratory analysis of the Monte Carlo tree search for solving the linear ordering problem

Proceedings of the Genetic and Evolutionary Computation Conference Companion ◽

10.1145/3449726.3463163 ◽

2021 ◽

Author(s):

Andoni I. Garmendia ◽

Josu Ceberio ◽

Alexander Mendiburu

Keyword(s):

Monte Carlo ◽

Exploratory Analysis ◽

Linear Ordering ◽

Tree Search ◽

Linear Ordering Problem ◽

Monte Carlo Tree Search

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A Decision-Making Approach Based on TOPSIS Method for Ranking Smart Cities in the Context of Urban Energy

Energies ◽

10.3390/en14092691 ◽

2021 ◽

Vol 14 (9) ◽

pp. 2691

Author(s):

Sławomira Hajduk ◽

Dorota Jelonek

Keyword(s):

Decision Making ◽

Smart Cities ◽

Energy Performance ◽

Linear Ordering ◽

Topsis Method ◽

Research Papers ◽

The World ◽

Urban Energy ◽

World Council ◽

Topsis Technique

This paper presents the use of multi-criteria decision-making (MCDM) for the evaluation of smart cities. During the development of the method, the importance of the decision-making approach in the linear ordering of cities was presented. The method of using the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) was proposed for the preparation of ranking. The method was verified by the application in the measurement of energy performance in smart cities. The authors conducted a literature review of research papers related to urban energy and MCDM published in the period from 2010 to 2020. The paper uses data from the World Council on City Data (WCCD). The research conducted allowed for the identification of the most popular MCDM techniques in the field of urban energy such as TOPSIS, AHP and DEA. The TOPSIS technique was used to organize and group the analyzed cities. Porto took the top position, whereas Buenos Aries was the last.

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