神经系统中的分形与混沌动力学

Fractal and chaotic dynamics in nervous systems.

作者信息

King C C

机构信息

Department of Mathematics and Statistics, University of Auckland, New Zealand.

出版信息

Prog Neurobiol. 1991;36(4):279-308. doi: 10.1016/0301-0082(91)90003-j.

DOI:10.1016/0301-0082(91)90003-j

PMID:1871317

Abstract

The chaotic aspects of brain structure and dynamics have been discussed. The relation of chaos to fractal processes in the brain from the neurosystems level down to the molecule has been explored. It is found that chaos appears to play an integral, though not necessarily exclusive role in function at all levels of organization from the neurosystems to the molecular and quantum levels. An interesting consequence involving the possible interface between chaotic dynamics and quantum physics has been discussed because of its potential significance is resolving several of the most intractable conceptual problems to do with computability, the brain and the mind (Blakemore and Greenfield, 1987; Hooper and Teresi, 1987; Rose, 1973; Searle, 1979; Penrose, 1986, 1989).

摘要

大脑结构和动力学的混沌方面已被讨论。从神经系统层面到分子层面，混沌与大脑中分数维过程的关系已得到探索。研究发现，混沌似乎在从神经系统到分子和量子层面的各级组织功能中发挥着不可或缺的作用，尽管不一定是唯一的作用。由于其在解决一些与可计算性、大脑和思维相关的最棘手概念问题方面的潜在意义，一个涉及混沌动力学与量子物理学可能接口的有趣结果已被讨论（布莱克莫尔和格林菲尔德，1987年；胡珀和特雷西，1987年；罗斯，1973年；塞尔，1979年；彭罗斯，1986年、1989年）。

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神经系统中的分形与混沌动力学

Fractal and chaotic dynamics in nervous systems.

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