Constructing Faithful Homomorphisms over Fields of Finite Characteristic

IF 0.8 Q3 COMPUTER SCIENCE, THEORY & METHODS ACM Transactions on Computation Theory Pub Date : 2018-12-26 DOI:10.1145/3580351
Prerona Chatterjee, Ramprasad Saptharishi
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引用次数: 1

Abstract

We study the question of algebraic rank or transcendence degree preserving homomorphisms over finite fields. This concept was first introduced by Beecken et al. [3] and exploited by them, and Agrawal et al. [2] to design algebraic independence–based identity tests using the Jacobian criterion over characteristic zero fields. An analogue of such constructions over finite characteristic fields was unknown due to the failure of the Jacobian criterion over finite characteristic fields. Building on a recent criterion of Pandey et al. [15], we construct explicit faithful maps for some natural classes of polynomials in the positive characteristic field setting, when a certain parameter called the inseparable degree of the underlying polynomials is bounded (this parameter is always 1 in fields of characteristic zero). This presents the first generalisation of some of the results of Beecken et al. [3] and Agrawal et al. [2] in the positive characteristic setting.
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有限特征域上忠实同态的构造
研究有限域上代数保秩或保超越度同态的问题。这个概念首先由Beecken等人提出,并被他们利用,Agrawal等人利用特征零域上的雅可比准则设计了基于代数独立性的恒等检验。由于雅可比准则在有限特征场上的失效,这种结构在有限特征场上的模拟是未知的。在Pandey et al.[15]的最新准则的基础上,我们构造了一些自然多项式类在正特征域设置中的显式忠实映射,当某个参数称为底层多项式的不可分度是有界的(该参数在特征为零的域中总是1)。这是Beecken et al.[3]和Agrawal et al.[2]在正特征设置下的一些结果的首次推广。
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来源期刊
ACM Transactions on Computation Theory
ACM Transactions on Computation Theory COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
2.30
自引率
0.00%
发文量
10
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