Informatics and Applications
2023, Volume 17, Issue 2, pp 78-83
SELF-LEARNING OF AUTONOMOUS INTELLIGENT ROBOTS IN THE PROCESS OF SEARCH AND EXPLORE ACTIVITIES
- V. B. Melekhin
- V. M. Khachumov
- M. V. Khachumov
Abstract
One of the effective approaches to organizing the goal-seeking behavior of autonomous integral robots in the process of search and explore activities in an a priori undescribed conditions of a problematic environment is considered. It is proposed to use the procedures of visual-effective thinking based on the formalization of the reflex behavior of highly organized living systems as the basis for the goal-seeking behavior of robots. A self-learning algorithm has been developed for the conditions with a high level of uncertainty which allows automatically generating conditional programs of expedient behavior that provide autonomous integral robots with the ability to achieve a given behavioral goal in the process of search and explore activities. The boundary estimates of the functional complexity of the proposed self-learning algorithm under uncertainty are found showing the possibility of its implementation on the onboard computer of autonomous integral robots which have, as a rule, limited computing resources. A modeling of self-learning process for an autonomous integral robot in an a priori undescribed and problematic environment was carried out which confirmed the effectiveness of the proposed approach for organizing the planning of goal-seeking behavior in an a priori undescribed and problematic environments.
[+] References (8)
- Melekhin, V. B., and M. V. Khachumov. 2020. Formy myshleniya avtonomnykh intellektual'nykh agentov: osobennosti i problemy ikh organizatsii [Forms of thinking of autonomous intelligent agents: Features and problems of their organization]. Morskie intellektual'nye tekhnolo- gii [Marine Intelligent Technologies] 4-1:224-230. doi: 10.37220/MIT.2020.50.4.031.
- Braynes, S. N., A. N. Napalkov, and V. B. Svechinskiy. 1962. Neyrokibernetika [Neurocybernetics]. Moscow: Gosmed- izdat. 172 p.
- Shingarov, G. Kh. 1986. Uslovnye refleksy i problema znaka
i znacheniya [Conditioned reflexes and the problem of sign and meaning]. Moscow: Nauka. 200 p.
- Melekhin, V. B., and M. V. Khachumov. 2021. Instrumental'nye sredstva upravleniya tselesoobraznym povedeniem samoorganizuyushchikhsya avtonomnykh intellektual'nykh agentov [Instrumental means for managing the
rational behavior of self-organizing autonomous intelligent agents]. Mekhatronika, avtomatizatsiya, upravlenie [Mechanatronics, Automation, and Control] 4:171-180. doi: 10.17587/mau.22.171-180.
- Karpov, V. E., I. P. Karpova, and A. A. Kulinich. 2019. Sotsial'nye soobshchestva robotov [Social communities of robots]. Moscow: LENAND. 352 p.
- Guan, B., T Xu, Y. Zhao, Y Li, andX. Dong. 2021. A random grouping-based self- regulating artificial bee colony algorithm for interactive feature detection. Knowl.-Based Syst. 243:1-12. doi: 10.1016/j.knosys.2022.108434.
- Rutkovskaya, D., M. Pilin'skiy, and L. Rutkovskiy. 2008. Neyronnye seti, geneticheskie algoritmy i nechetkie sistemy [Neural networks, genetic algorithms, and fuzzy systems]. Moscow: Goryachaya Liniya - Telekom. 452 p.
- Simon, D. 2013. Evolutionary optimization algorithms. 1st ed. New York, NY: Wiley. 784 p.
[+] About this article
Title
SELF-LEARNING OF AUTONOMOUS INTELLIGENT ROBOTS IN THE PROCESS OF SEARCH AND EXPLORE ACTIVITIES
Journal
Informatics and Applications
2023, Volume 17, Issue 2, pp 78-83
Cover Date
2023-07-10
DOI
10.14357/19922264230211
Print ISSN
1992-2264
Publisher
Institute of Informatics Problems, Russian Academy of Sciences
Additional Links
Key words
autonomous integral robot; self-learning algorithm; uncertainty conditions; problematic environment; conditional signals
Authors
V. B. Melekhin  , V. M. Khachumov  ,  ,  , and M. V. Khachumov , ,
Author Affiliations
Dagestan State Technical University, 70A Imam Shamil Ave., Makhachkala 367015, Republic of Dagestan
Ailamazyan Program Systems Institute of the Russian Academy of Sciences, 4A Petra Pervogo Str., Veskovo 152024, Yaroslavl Region, Russian Federation
Federal Research Center "Computer Science and Control" of the Russian Academy of Sciences, 44-2 Vavilov Str., Moscow 119333, Russian Federation
RUDN University, 6 Miklukho-Maklaya Str., Moscow 117198, Russian Federation
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