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A note on the expressive power of linear orders

Thomas Schwentick ; Nicole Schweikardt.
This article shows that there exist two particular linear orders such that first-order logic with these two linear orders has the same expressive power as first-order logic with the Bit-predicate FO(Bit). As a corollary we obtain that there also exists a built-in permutation such that first-order&nbsp;[&hellip;]
Published on December 14, 2011
Volume 7, Issue 4

The succinctness of first-order logic on linear orders

Martin Grohe ; Nicole Schweikardt.
Succinctness is a natural measure for comparing the strength of different logics. Intuitively, a logic L_1 is more succinct than another logic L_2 if all properties that can be expressed in L_2 can be expressed in L_1 by formulas of (approximately) the same size, but some properties can be expressed&nbsp;[&hellip;]
Published on June 29, 2005
Volume 1, Issue 1

Preservation and decomposition theorems for bounded degree structures

Frederik Harwath ; Lucas Heimberg ; Nicole Schweikardt.
We provide elementary algorithms for two preservation theorems for first-order sentences (FO) on the class \^ad of all finite structures of degree at most d: For each FO-sentence that is preserved under extensions (homomorphisms) on \^ad, a \^ad-equivalent existential (existential-positive)&nbsp;[&hellip;]
Published on December 29, 2015
Volume 11, Issue 4

On the locality of arb-invariant first-order formulas with modulo counting quantifiers

Frederik Harwath ; Nicole Schweikardt.
We study Gaifman locality and Hanf locality of an extension of first-order logic with modulo p counting quantifiers (FO+MOD_p, for short) with arbitrary numerical predicates. We require that the validity of formulas is independent of the particular interpretation of the numerical predicates and&nbsp;[&hellip;]
Published on April 27, 2017
Volume 12, Issue 4

Enumerating Answers to First-Order Queries over Databases of Low Degree

Arnaud Durand ; Nicole Schweikardt ; Luc Segoufin.
A class of relational databases has low degree if for all $\delta>0$, all but finitely many databases in the class have degree at most $n^{\delta}$, where $n$ is the size of the database. Typical examples are databases of bounded degree or of degree bounded by $\log n$. It is known that over a&nbsp;[&hellip;]
Published on May 10, 2022
Volume 18, Issue 2
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