How to generate all possible rational Wilf-Zeilberger forms?

arXiv - CS - Symbolic Computation Pub Date : 2024-05-03 DOI:arxiv-2405.02430
Shaoshi Chen, Christoph Koutschan, Yisen Wang
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Abstract

Wilf-Zeilberger pairs are fundamental in the algorithmic theory of Wilf and Zeilberger for computer-generated proofs of combinatorial identities. Wilf-Zeilberger forms are their high-dimensional generalizations, which can be used for proving and discovering convergence acceleration formulas. This paper presents a structural description of all possible rational such forms, which can be viewed as an additive analog of the classical Ore-Sato theorem. Based on this analog, we show a structural decomposition of so-called multivariate hyperarithmetic terms, which extend multivariate hypergeometric terms to the additive setting.
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如何生成所有可能的有理 Wilf-Zeilberger 形式?
Wilf-Zeilberger 对是 Wilf 和 Zeilberger 算法理论中用于计算机生成组合同一性证明的基础。Wilf-Zeilberger 形式是它们的高维概括,可用于证明和发现收敛加速公式。本文介绍了所有可能的有理形式的结构描述,可以将其视为经典奥雷-萨托定理的加法类比。在此基础上,我们展示了所谓多元超算术项的结构分解,它将多元超几何项扩展到了加法环境中。
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arXiv - CS - Symbolic Computation
arXiv - CS - Symbolic Computation
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