Brain Principles Programming › Research Explorer

Standard

Brain Principles Programming. / Vityaev, E.; Kolonin, A.; Kurpatov, A. et al.

In: Doklady Mathematics, Vol. 106, 2022, p. S101-S112.

Research output: Contribution to journal › Article › peer-review

Harvard

Vityaev, E , Kolonin, A, Kurpatov, A & Molchanov, A 2022, 'Brain Principles Programming', Doklady Mathematics, vol. 106, pp. S101-S112. https://doi.org/10.1134/S1064562422060217

APA

Vityaev, E., Kolonin, A., Kurpatov, A., & Molchanov, A. (2022). Brain Principles Programming. Doklady Mathematics, 106, S101-S112. https://doi.org/10.1134/S1064562422060217

Vancouver

Vityaev E , Kolonin A, Kurpatov A, Molchanov A. Brain Principles Programming. Doklady Mathematics. 2022;106:S101-S112. doi: 10.1134/S1064562422060217

Author

Vityaev, E. ; Kolonin, A. ; Kurpatov, A. et al. / Brain Principles Programming. In: Doklady Mathematics. 2022 ; Vol. 106. pp. S101-S112.

BibTeX

@article{d454606442014223b00db97eb479b9a7,

title = "Brain Principles Programming",

abstract = "The monograph “Strong Artificial Intelligence. On the Approaches to Superintelligence,” referenced by this paper, provides a cross-disciplinary review of Artificial General Intelligence (AGI). As an anthropomorphic direction of research, it considers Brain Principles Programming (BPP)—the formalization of universal mechanisms (principles) of the brain{\textquoteright}s work with information, which are implemented at all levels of the organization of nervous tissue. This monograph provides a formalization of these principles in terms of the category theory. However, this formalization is not enough to develop algorithms for working with information. In this paper, for the description and modeling of BPP, it is proposed to apply mathematical models and algorithms developed by us earlier that modeling cognitive functions, which are based on well-known physiological, psychological and other natural science theories. The paper uses mathematical models and algorithms of the following theories: P.K. Anokhin{\textquoteright}s Theory of Functional Brain Systems, Eleonor Rosch{\textquoteright}s prototypical categorization theory, Bob Rehder{\textquoteright}s theory of causal models and “natural” classification. As a result, the formalization of the BPP is obtained and computer examples are given that demonstrate the algorithms operation.",

keywords = "brain principles, categorization, category theory, formal concepts",

author = "E. Vityaev and A. Kolonin and A. Kurpatov and A. Molchanov",

note = "Публикация для корректировки.",

year = "2022",

doi = "10.1134/S1064562422060217",

language = "English",

volume = "106",

pages = "S101--S112",

journal = "Doklady Mathematics",

issn = "1064-5624",

publisher = "Maik Nauka-Interperiodica Publishing",

}

RIS

TY - JOUR

T1 - Brain Principles Programming

AU - Vityaev, E.

AU - Kolonin, A.

AU - Kurpatov, A.

AU - Molchanov, A.

N1 - Публикация для корректировки.

PY - 2022

Y1 - 2022

N2 - The monograph “Strong Artificial Intelligence. On the Approaches to Superintelligence,” referenced by this paper, provides a cross-disciplinary review of Artificial General Intelligence (AGI). As an anthropomorphic direction of research, it considers Brain Principles Programming (BPP)—the formalization of universal mechanisms (principles) of the brain’s work with information, which are implemented at all levels of the organization of nervous tissue. This monograph provides a formalization of these principles in terms of the category theory. However, this formalization is not enough to develop algorithms for working with information. In this paper, for the description and modeling of BPP, it is proposed to apply mathematical models and algorithms developed by us earlier that modeling cognitive functions, which are based on well-known physiological, psychological and other natural science theories. The paper uses mathematical models and algorithms of the following theories: P.K. Anokhin’s Theory of Functional Brain Systems, Eleonor Rosch’s prototypical categorization theory, Bob Rehder’s theory of causal models and “natural” classification. As a result, the formalization of the BPP is obtained and computer examples are given that demonstrate the algorithms operation.

AB - The monograph “Strong Artificial Intelligence. On the Approaches to Superintelligence,” referenced by this paper, provides a cross-disciplinary review of Artificial General Intelligence (AGI). As an anthropomorphic direction of research, it considers Brain Principles Programming (BPP)—the formalization of universal mechanisms (principles) of the brain’s work with information, which are implemented at all levels of the organization of nervous tissue. This monograph provides a formalization of these principles in terms of the category theory. However, this formalization is not enough to develop algorithms for working with information. In this paper, for the description and modeling of BPP, it is proposed to apply mathematical models and algorithms developed by us earlier that modeling cognitive functions, which are based on well-known physiological, psychological and other natural science theories. The paper uses mathematical models and algorithms of the following theories: P.K. Anokhin’s Theory of Functional Brain Systems, Eleonor Rosch’s prototypical categorization theory, Bob Rehder’s theory of causal models and “natural” classification. As a result, the formalization of the BPP is obtained and computer examples are given that demonstrate the algorithms operation.

KW - brain principles

KW - categorization

KW - category theory

KW - formal concepts

UR - https://www.mendeley.com/catalogue/dd3ebadc-b7c9-36d3-8af1-dfdcdc2015a2/

U2 - 10.1134/S1064562422060217

DO - 10.1134/S1064562422060217

M3 - Article

VL - 106

SP - S101-S112

JO - Doklady Mathematics

JF - Doklady Mathematics

SN - 1064-5624

ER -

ID: 55694678