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Differential Incremental Equilibrium Geometry-Effects of Cerebral Groove and Protein Granule Motion on Thinking Space and Mental Activity

Received: 16 April 2020     Accepted: 3 May 2020     Published: 27 May 2020
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Abstract

The research direction of this paper is to construct brain-like spatial structure and brain, nervous system and neurotransmitters from molecular cytobiology to construct mental acquisition from the influence of neuron and genome expression on brain, especially the material suspension caused by mental collapse to the neuron-like topological spatial structure and fluid topological structure of neurotransmitters. The spatial construction of acquired immunity and fluid morphology of neurotransmitters in the field of psychiatry (Carrying schizophrenia and other factors) also has brain-like mental activity traits. Stable traceability of neurotransmitter structure of series signal in schizophrenics with advanced intelligence. The high-end hyperspherical convex spherical fiber bundles with reduced dimension in 3+1 dimension system, special light field with radiation, and the collapse of mental force cause the suspension of substance in stationary state, the similar solution of solitary wavelet of petal-like micro-fibers in superimposed bundles. That is to say, the intelligent information particles carrying special image fragments in the form of mental energy in Psychological Acquired Immunity. Including primitive and innovative mathematical models of neuronal cell modification. Therefore, on the basis of original mathematical "differential incremental equilibrium geometry". The geometric models of spatial geometry and fluid structure of neurotransmitters of all neurons in life sciences are solved at the molecular level. Even using the nonlinearity of 4-dimensional super-high-end super-spherical convex fiber plexus "redundancy, petal-like micro-fibers" Sex-like solitary wavelet, which truly establishes the internal structure and law of molecular cell biology model. Reflects the new field of human brain research. It provides the basis and precondition of theory and application for the establishment of hybrid artificial intelligence of life and machine. and has far-reaching influence and important development prospects for the development of artificial intelligence, especially in brain-like artificial intelligence.

Published in American Journal of Applied Mathematics (Volume 8, Issue 3)
DOI 10.11648/j.ajam.20200803.14
Page(s) 98-122
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2020. Published by Science Publishing Group

Keywords

Cell Modification, Neurons, Neurotransmitters, Acquired Psychoimmunity, Quasi Brain Science, Nonlinear Solitary Wavelet

References
[1] C. Rogers W. K. Schief, Bäcklund and Darboux Transformations: Geometry and Modern Applications in Solition Theory, first published by Cambridge University, 2015: 1-292.
[2] Chen Zhonghu, Lie group guidance, Higher Education Press, 1997: 1-334.
[3] Ding Peizhu, Wang Yi, Group and its Express, Higher Education Press, 1999: 1-468.
[4] E. M. Chirka, Complex Analytic Sets Mathematics and Its Applications, Kluwer Academic Publishers Gerald Karp, Cell and Molecular Biology: Concepts and Experiments (3e), Higher Education Press, 2005: 1-792.
[5] Gong Sheng, Harmonic Analysis on Typical Groups Monographs on pure mathematics and Applied Mathematics Number twelfth, Beijing China, Science Press, 1983: 1-314.
[6] Gu Chaohao, Hu Hesheng, Zhou Zixiang, Dar Boux Transformation in Solition Theory and Its Geometric Applications (The second edition), Shanghai science and technology Press, 1999, 2005: 1-271.
[7] Jari Kaipio Erkki Somersalo, Statistical and Computational Inverse Problems With 102 Figures, Spinger.
[8] Lou Senyue, Tang Xiaoyan, Nonlinear Mathematical Physics Method, Beijing China, Science Press, 2006: 1-365.
[9] Numerical Treatment of Multi-Scale Problems Porceedings of the 13th GAMM-Seminar, Kiel, January 24-26, 1997.
[10] Notes on Numerical Fluid Mechanics Volume 70 Edited By Wolf Gang Hack Busch and Gabriel Wittum.
[11] Qiu Chengtong, Sun Licha, Differential Geometry Monographs on pure mathematics and Applied Mathematics Number eighteenth, Beijing China, Science Press, 1988: 1-403.
[12] Ren Fuyao, Complex Analytic Dynamic System Shanghai China, Fudan University Press, 1996: 1-364.
[13] Shou Tiande, Neurobiology (2e) Higher Education Press, 2001, 2006: 1-548.
[14] Shou Tiande, Neurobiology, Higher Education Press, 2001, 2003: 1-470.
[15] Su Jingcun, Topology of Manifold, Wuhan China, Wuhan university press, 2005: 1-708.
[16] TECHNIQUES D’ Analyse MATHE’MATIQUE 1968 Masson etCie, Paris. Imprimé en France Wave Packet Analysishristoph Thiele Numer 105 Library of Congress Cataloging-in-Publication.
[17] Data Thiele. Christoph, 1968 Wave packet analysis / Christoph Thielep. (Regional conference series in mathematics. ISSN 0160-7642: no. 105).
[18] W. Miller, Symmetry Group and Its Application, Beijing China, Science Press, 1981: 1-486.
[19] Wu Chuanxi, Li Guanghan, Submanifold geometry, Beijing China, Science Press, 2002: 1-217.
[20] Xiao Gang, Fibrosis of Algebraic Surfaces, Shanghai China, Shanghai science and technology Press, 1992: 1-180.
[21] Zhang Wenxiu, Qiu Guofang, Uncertain Decision Making Based on Rough Sets, Beijing China, tsinghua university press, 2005: 1-255.
[22] Zheng jianhua, Meromorphic Functional Dynamics System, Beijing China, tsinghua university press, 2006: 1-413.
[23] Zheng Weiwei, Complex Variable Function and Integral Transform, Northwest Industrial University Press, 2011: 1-396.
[24] LABPHTEB M. A., Tria BAT B. B., Methods of Function of a Complex Variable Originally published in Russian under the title, 1956, 2006: 1-287.
[25] Tang Hua, Principle and application of RNA interference, Beijing China, Science Press, 2006: 1-482.
[26] Wang Jiankang, Applied quantitative genetics, China Agricultural Science and Technology Press, 2007: 1-269.
[27] J. Barciszewski, V. A. Erdmann, Noncoding RNAs: Molecular Biology and Molecular Medicine, Chemical Industry Press, 2008: 1-299.
[28] Jin Youxin, Zhao Botao, Ma Zhongliang, TECHNIQUES OF RNA INTERFERENCE, Chemical Industry Press, 2013: 1-192.
[29] Chen Xinquan, Application of optimization method in clustering algorithm, University of Electronic Science and Technology Press, 2014: 1-128.
[30] Li Gui Yuan, Wu Minghua, NON-CODING RNA AND TUMOR, Beijing China, Science Press, 2014: 1-399.
[31] J. E. Krebs, E. S. Goldstein, S. T. Kilpatrick, Lewin’s Genes X, Beijing China, Science Press, 2017: 1-994.
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  • APA Style

    Zhu Rongrong. (2020). Differential Incremental Equilibrium Geometry-Effects of Cerebral Groove and Protein Granule Motion on Thinking Space and Mental Activity. American Journal of Applied Mathematics, 8(3), 98-122. https://doi.org/10.11648/j.ajam.20200803.14

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    ACS Style

    Zhu Rongrong. Differential Incremental Equilibrium Geometry-Effects of Cerebral Groove and Protein Granule Motion on Thinking Space and Mental Activity. Am. J. Appl. Math. 2020, 8(3), 98-122. doi: 10.11648/j.ajam.20200803.14

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    AMA Style

    Zhu Rongrong. Differential Incremental Equilibrium Geometry-Effects of Cerebral Groove and Protein Granule Motion on Thinking Space and Mental Activity. Am J Appl Math. 2020;8(3):98-122. doi: 10.11648/j.ajam.20200803.14

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  • @article{10.11648/j.ajam.20200803.14,
      author = {Zhu Rongrong},
      title = {Differential Incremental Equilibrium Geometry-Effects of Cerebral Groove and Protein Granule Motion on Thinking Space and Mental Activity},
      journal = {American Journal of Applied Mathematics},
      volume = {8},
      number = {3},
      pages = {98-122},
      doi = {10.11648/j.ajam.20200803.14},
      url = {https://doi.org/10.11648/j.ajam.20200803.14},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajam.20200803.14},
      abstract = {The research direction of this paper is to construct brain-like spatial structure and brain, nervous system and neurotransmitters from molecular cytobiology to construct mental acquisition from the influence of neuron and genome expression on brain, especially the material suspension caused by mental collapse to the neuron-like topological spatial structure and fluid topological structure of neurotransmitters. The spatial construction of acquired immunity and fluid morphology of neurotransmitters in the field of psychiatry (Carrying schizophrenia and other factors) also has brain-like mental activity traits. Stable traceability of neurotransmitter structure of series signal in schizophrenics with advanced intelligence. The high-end hyperspherical convex spherical fiber bundles with reduced dimension in 3+1 dimension system, special light field with radiation, and the collapse of mental force cause the suspension of substance in stationary state, the similar solution of solitary wavelet of petal-like micro-fibers in superimposed bundles. That is to say, the intelligent information particles carrying special image fragments in the form of mental energy in Psychological Acquired Immunity. Including primitive and innovative mathematical models of neuronal cell modification. Therefore, on the basis of original mathematical "differential incremental equilibrium geometry". The geometric models of spatial geometry and fluid structure of neurotransmitters of all neurons in life sciences are solved at the molecular level. Even using the nonlinearity of 4-dimensional super-high-end super-spherical convex fiber plexus "redundancy, petal-like micro-fibers" Sex-like solitary wavelet, which truly establishes the internal structure and law of molecular cell biology model. Reflects the new field of human brain research. It provides the basis and precondition of theory and application for the establishment of hybrid artificial intelligence of life and machine. and has far-reaching influence and important development prospects for the development of artificial intelligence, especially in brain-like artificial intelligence.},
     year = {2020}
    }
    

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  • TY  - JOUR
    T1  - Differential Incremental Equilibrium Geometry-Effects of Cerebral Groove and Protein Granule Motion on Thinking Space and Mental Activity
    AU  - Zhu Rongrong
    Y1  - 2020/05/27
    PY  - 2020
    N1  - https://doi.org/10.11648/j.ajam.20200803.14
    DO  - 10.11648/j.ajam.20200803.14
    T2  - American Journal of Applied Mathematics
    JF  - American Journal of Applied Mathematics
    JO  - American Journal of Applied Mathematics
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    EP  - 122
    PB  - Science Publishing Group
    SN  - 2330-006X
    UR  - https://doi.org/10.11648/j.ajam.20200803.14
    AB  - The research direction of this paper is to construct brain-like spatial structure and brain, nervous system and neurotransmitters from molecular cytobiology to construct mental acquisition from the influence of neuron and genome expression on brain, especially the material suspension caused by mental collapse to the neuron-like topological spatial structure and fluid topological structure of neurotransmitters. The spatial construction of acquired immunity and fluid morphology of neurotransmitters in the field of psychiatry (Carrying schizophrenia and other factors) also has brain-like mental activity traits. Stable traceability of neurotransmitter structure of series signal in schizophrenics with advanced intelligence. The high-end hyperspherical convex spherical fiber bundles with reduced dimension in 3+1 dimension system, special light field with radiation, and the collapse of mental force cause the suspension of substance in stationary state, the similar solution of solitary wavelet of petal-like micro-fibers in superimposed bundles. That is to say, the intelligent information particles carrying special image fragments in the form of mental energy in Psychological Acquired Immunity. Including primitive and innovative mathematical models of neuronal cell modification. Therefore, on the basis of original mathematical "differential incremental equilibrium geometry". The geometric models of spatial geometry and fluid structure of neurotransmitters of all neurons in life sciences are solved at the molecular level. Even using the nonlinearity of 4-dimensional super-high-end super-spherical convex fiber plexus "redundancy, petal-like micro-fibers" Sex-like solitary wavelet, which truly establishes the internal structure and law of molecular cell biology model. Reflects the new field of human brain research. It provides the basis and precondition of theory and application for the establishment of hybrid artificial intelligence of life and machine. and has far-reaching influence and important development prospects for the development of artificial intelligence, especially in brain-like artificial intelligence.
    VL  - 8
    IS  - 3
    ER  - 

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Author Information
  • DIEG Mathematics Research of HR, Fudan University, Shanghai, China

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