Iterated Resultants and Rational Functions in Real Quantifier Elimination

This paper builds and extends on the authors’ previous work related to the algorithmic tool, Cylindrical Algebraic Decomposition (CAD), and one of its core applications, Real Quantifier Elimination (QE). These topics are at the heart of symbolic computation and were first implemented in computer alg...

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Bibliographic Details
Published in:Mathematics in computer science Vol. 19; no. 1; p. 12
Main Authors: Davenport, James H., England, Matthew, McCallum, Scott, Uncu, Ali K.
Format: Journal Article
Language:English
Published: Heidelberg Springer Nature B.V 01.12.2025
Subjects:
Algebra
Algorithms
Computer algebra
Constraints
Decomposition
Industrial applications
Polynomials
Rational functions
Variables
ISSN:1661-8270, 1661-8289
Online Access:Get full text
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Summary:This paper builds and extends on the authors’ previous work related to the algorithmic tool, Cylindrical Algebraic Decomposition (CAD), and one of its core applications, Real Quantifier Elimination (QE). These topics are at the heart of symbolic computation and were first implemented in computer algebra systems decades ago, but have recently received renewed interest as part of the ongoing development of SMT solvers for non-linear real arithmetic. First, we consider the use of iterated univariate resultants in traditional CAD, and how this leads to inefficiencies, especially in the case of an input with multiple equational constraints. We reproduce the workshop paper [Davenport & England, 2023], adding important clarifications to our suggestions first made there to make use of multivariate resultants in the projection phase of CAD. We then consider an alternative approach to this problem first documented in [McCallum & Brown, 2009] which redefines the actual object under construction, albeit only in the case of two equational constraints. We correct an unhelpful typo and provide a proof missing from that paper. We finish by revising the topic of how to deal with SMT or Real QE problems expressed using rational functions (as opposed to the usual polynomial ones) noting that these are often found in industrial applications. We revisit a proposal made in [Uncu, Davenport and England, 2023] for doing this in the case of satisfiability, explaining why such an approach does not trivially extend to more complicated quantification structure and giving a suitable alternative.
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ISSN:1661-8270
1661-8289
DOI:10.1007/s11786-025-00606-4