The commutative semiring $\mathbf{D}$ of finite, discrete-time dynamical systems was introduced in order to study their (de)composition from an algebraic point of view. However, many decision problems related to solving polynomial equations over $\mathbf{D}$ are intractable (or conjectured to be so), and sometimes even undecidable. In order to take a more abstract look at those problems, we introduce the notion of "topographic" profile of a dynamical system $(A,f)$ with state transition function $f \colon A \to A$ as the sequence $\mathop{\mathrm{prof}} A = (|A|_i)_{i \in \mathbb{N}}$, where $|A|_i$ is the number of states having distance $i$, in terms of number of applications of $f$, from a limit cycle of $(A,f)$. We prove that the set of profiles is also a commutative semiring $(\mathbf{P},+,\times)$ with respect to operations compatible with those of $\mathbf{D}$ (namely, disjoint union and tensor product), and investigate its algebraic properties, such as its irreducible elements and factorisations, as well as the computability and complexity of solving polynomial equations over $\mathbf{P}$.
翻译:固定且离散的动态系统 $\ mathbf{D} 的通量半值 $\ mathbf{D} 美元,有时甚至无法量化。为了更抽象地审视这些问题,我们引入了一个动态系统 $(A,f) 的“地形”配置概念,该动态系统 $(A,f) 以国家过渡函数$f\ Cronoom_ A\ to A$为代数。然而,许多与解决$\ mathbf{A $以上多边方程式有关的决定问题很难解决(或推测如此解决),有时甚至无法量化。为了更抽象地审视这些问题,我们引入了一个动态系统 $(A,f) 的“地形”配置概念, 以州过渡函数$(A,f) 以美元为单位值为单位, 州过渡系统 的转换函数 $\ $(a) a\ to A comnutional $ (math\ licolity) $ (math\\ ab) excial excialization exizational $, as as ex excience as as excial ex as as as as excient exciental $, as excience as as excientalizes, as excientalizentalizes, $, as as as excientalizes, as as as excializationalizationalizitalizes, 和 exitalizalizal as as as as as as as as as as as as as as as as as exub as as exub exal exal exal ex ex exalizalizalizes, extializal exal ex extical exual extial as s as s exal exal exal exal exal as exal exal ex ex ex ex ex exal exal
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