Recursive structures in involutive bases theory

IF 1.1 4区数学 Q4 COMPUTER SCIENCE, THEORY & METHODS Journal of Symbolic Computation Pub Date : 2023-09-01 DOI:10.1016/j.jsc.2023.01.003

Amir Hashemi , Matthias Orth , Werner M. Seiler

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Abstract

We study characterisations of involutive bases using a recursion over the variables in the underlying polynomial ring and corresponding completion algorithms. Three key ingredients are (i) an old result by Janet recursively characterising Janet bases for which we provide a new and simpler proof, (ii) the Berkesch–Schreyer variant of Buchberger's algorithm and (iii) a tree representation of sets of terms also known as Janet trees. We start by extending Janet's result to a recursive criterion for minimal Janet bases leading to an algorithm to minimise any given Janet basis. We then extend Janet's result also to Janet-like bases as introduced by Gerdt and Blinkov. Next, we design a novel recursive completion algorithm for Janet bases. We study then the extension of these results to Pommaret bases. It yields a novel recursive characterisation of quasi-stability which we use for deterministically constructing “good” coordinates more efficiently than in previous works. A small modification leads to a novel deterministic algorithm for putting an ideal into Nœther position. Finally, we provide a general theory of involutive-like bases with special emphasis on Pommaret-like bases and study the syzygy theory of Janet-like and Pommaret-like bases.

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对合基理论中的递归结构

我们使用对基础多项式环中的变量的递归和相应的补全算法来研究对合基的特征。三个关键成分是（i）Janet递归刻画Janet基的旧结果，我们为其提供了一个新的更简单的证明，（ii）Buchberger算法的Berkesch–Schreyer变体，以及（iii）术语集的树表示，也称为Janet树。我们首先将Janet的结果扩展到最小Janet基的递归标准，从而得出最小化任何给定Janet基。然后，我们将Janet的结果推广到Gerdt和Blinkov引入的类Janet基。接下来，我们为Janet基设计了一种新的递归完成算法。然后我们研究了这些结果对Pommaret基的推广。它产生了一种新的拟稳定性递归特征，我们使用它来确定地构造“好”坐标，比以前的工作更有效。一个小的修改导致了一种新的确定性算法，用于将理想放入Nœther位置。最后，我们提供了一个对合类基的一般理论，特别是Pommaret类基，并研究了Janet类和Pommalet类基的合理论。

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来源期刊

Journal of Symbolic Computation 工程技术-计算机：理论方法

CiteScore

2.10

自引率

14.30%

发文量

审稿时长

142 days

期刊介绍： An international journal, the Journal of Symbolic Computation, founded by Bruno Buchberger in 1985, is directed to mathematicians and computer scientists who have a particular interest in symbolic computation. The journal provides a forum for research in the algorithmic treatment of all types of symbolic objects: objects in formal languages (terms, formulas, programs); algebraic objects (elements in basic number domains, polynomials, residue classes, etc.); and geometrical objects. It is the explicit goal of the journal to promote the integration of symbolic computation by establishing one common avenue of communication for researchers working in the different subareas. It is also important that the algorithmic achievements of these areas should be made available to the human problem-solver in integrated software systems for symbolic computation. To help this integration, the journal publishes invited tutorial surveys as well as Applications Letters and System Descriptions.

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