On a heuristic approach to the description of consciousness as a hypercomplex system state and the possibility of machine consciousness (German edition)

arXiv - MATH - Commutative Algebra Pub Date : 2024-09-03 DOI:arxiv-2409.02100

Ralf Otte

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Abstract

This article presents a heuristic view that shows that the inner states of consciousness experienced by every human being have a physical but imaginary hypercomplex basis. The hypercomplex description is necessary because certain processes of consciousness cannot be physically measured in principle, but nevertheless exist. Based on theoretical considerations, it could be possible - as a result of mathematical investigations into a so-called bicomplex algebra - to generate and use hypercomplex system states on machines in a targeted manner. The hypothesis of the existence of hypercomplex system states on machines is already supported by the surprising performance of highly complex AI systems. However, this has yet to be proven. In particular, there is a lack of experimental data that distinguishes such systems from other systems, which is why this question will be addressed in later articles. This paper describes the developed bicomplex algebra and possible applications of these findings to generate hypercomplex energy states on machines. In the literature, such system states are often referred to as machine consciousness. The article uses mathematical considerations to explain how artificial consciousness could be generated and what advantages this would have for such AI systems.

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关于将意识描述为超复杂系统状态的启发式方法以及机器意识的可能性（德文版）

本文提出了一种启发式观点，表明每个人所经历的内在意识状态都有一个物理的但又是想象的超复杂基础。超复杂描述之所以必要，是因为某些意识过程原则上无法用物理方法测量，但仍然存在。基于理论考虑，通过对所谓的双复代数进行数学研究，有可能在机器上有针对性地生成和使用超复数系统状态。高度复杂的人工智能系统的惊人表现已经支持了机器上存在超复杂系统状态的假设。然而，这一点还有待证明。特别是，目前还缺乏能将这类系统与其他系统区分开来的实验数据，因此这个问题将在以后的文章中讨论。本文介绍了所开发的二复数代数，以及这些发现在生成机器超复数能态方面的可能应用。在文献中，这种系统状态通常被称为机器意识。文章用数学方法解释了如何生成人工意识，以及这样做对人工智能系统有什么好处。

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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arXiv - MATH - Commutative Algebra

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