Dynamics of Potential Functionality of Objects

IF 0.4 Q4 MANAGEMENT
T. Krupa
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引用次数: 0

Abstract

Abstract This article guides the reader through the seemingly simple issues of the assessment, protec-tion and transfer of the potentials of an object’s functionality through its internal and external buffers, by employing Cartesian multiplication and signatures. The change in the potentials of buffers and the functionality of objects is the focus of this research, guaranteeing the correct use of potentials in relation to the whole “shell” of the object. In order to avoid any collision in the transport of functional potentials, each proper buffer is, by definition, connected to one and only one object. On the probability scale ∑ [0..1], the potential of the object’s functionality is expressed as the system sum [0..1] of all the potentials of its proper buffer components. A practical and important part of the article contains two methodologically important examples of tabular construction and analysis: an example of the dynamics of the potentials of an object with two buffers, together with a table of the potentials of a two-buffer object; and an example of the Cartesian product of graphs with lost determinism together with the table of potentials of a two-buffer object with an extensive option structure.
物体潜在功能的动力学
摘要本文通过使用笛卡尔乘法和签名,引导读者通过对象功能的内部和外部缓冲区来评估、保护和转移看似简单的问题。缓冲区电位和物体功能的变化是本研究的重点,保证了与物体的整个“外壳”相关的电位的正确使用。为了避免功能电位传输中的任何碰撞,根据定义,每个适当的缓冲区都连接到一个并且只有一个对象。在概率标度∑[0.1]上,对象功能的潜力表示为其适当缓冲组件的所有潜力的系统和[0.1]。这篇文章的一个实用而重要的部分包含了表格构建和分析的两个方法上重要的例子:一个具有两个缓冲区的物体的势的动力学例子,以及一个两个缓冲区时物体的势表;以及具有损失确定性的图的笛卡尔乘积的例子,以及具有广泛选项结构的两个缓冲对象的势表。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.20
自引率
0.00%
发文量
5
审稿时长
12 weeks
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