International Journal of Open Information Technologies

The review presents the conceptual foundations of the use of S‑(symbol-code-signal) environment (S-environment) as the infrastructure basis of artificial intelligence systems. S-(symbols, codes, signals) and S-(symbolic, code and signal) constructions, their properties, relationships and methods of construction are studied in the theory of S-symbols, which serves as the methodological basis for construction of the S-environment. The definition of intelligence is given, the functioning of the mechanisms of intuition and logical inference in the processes of solving well and poorly defined S-problems is considered. The definition of S-problem as an object of representation in the S‑environment of the functioning of artificial intelligence systems is given. The authors' point of view to artificial intelligence is presented. A critical analysis of the A. Turing test is given and the requirements for such tests are formulated.

Rojek, I., Mikołajewski, D., Dostatni, E. 2020. Digital twins in product lifecycle for sustainability in manufacturing and maintenance. Appl. Sci., 11(1), 31 pp. DOI: 10.3390/app11010031.

Semeraro, C., Lezoche, M., Panetto, H., Dassisti, M. 2021. Digital twin paradigm: A systematic literature review. Comput. Ind., 130, 103469, 23 pp. DOI: 10.1016/j.compind.2021.103469.

Nguyen, H., Trestian, R., To, D., Tatipamula, M. 2021. Digital twin for 5G and beyond. IEEE Commun. Mag., 59(2), 10–15. DOI: 10.1109/MCOM.001.2000343.

Jia, P., Wang, X., Shen, X. 2021. Digital-twin-enabled intelligent distributed clock synchronization in industrial IoT systems. IEEE Internet Things, 8(6), 4548–4559. DOI: 10.1109/JIOT.2020.3029131.

Ball, P. & Badakhshan, E. 2022. Sustainable Manufacturing Digital Twins: A Review of Development and Application. In: Scholz S. G., Howlett R. J., Setchi R. (eds). Sustainable Design and Manufacturing. KES-SDM 2021. Smart Innovation, Systems and Technologies, vol 262. Springer, Singapore. DOI :10.1007/978-981-16-6128-0_16.

Ilyin, V. D. 2023. Teoriya S-simvolov: kontseptual’nyye osnovaniya [Theory of S-symbols: Conceptual foundations] Sistemy i Sredstva Informatiki [Systems and Means of Informatics], 33(1). 126–134. DOI: 10.14357/08696527230112.

Ilyin, V. D. 2023. Teoriya S-simvolov: formalizatsiya znaniy ob S-zadachakh [Theory of S-symbols: Formalization of knowledge about S-problems] Sistemy i Sredstva Informatiki [Systems and Means of Informatics], 33(1), 124–131. DOI: 10.14357/08696527230212 .

Kim, R. Y. 2011. Efficient Wireless Communications Schemes for Machine to Machine Communications. In: Zain J. M., Wan Mohd W. M. b., El-Qawasmeh E. (eds). Software Engineering and Computer Systems. ICSECS 2011. Communications in Computer and Information Science, vol 181. Springer, Berlin, Heidelberg. DOI: 10.1007/978-3-642-22203-0_28.

Lien, S. Y., Liau, T. H., Kao, C. Y., et al. 2012. Cooperative access class barring for machine-to-machine communications. IEEE T. Wirel. Commun., 11(1), 27–32. DOI: 10.1109/TWC.2011.111611.110350.

Wei, Y. & Blake, M. B. 2010. Service-oriented computing and cloud computing: Challenges and opportunities. IEEE Internet Comput., 14(6), 72–75. DOI: 10.1109/MIC.2010.147.

Perera, C., Liu, C. H., Jayawardena, S. 2015. The emerging Internet of Things marketplace from an industrial perspective: A survey. IEEE T. Emerging Topics Computing, 3(4), 585–598. DOI: 10.1109/TETC.2015.2390034.

Ilyin, V. D. 2022. Symbolic Modeling (S-Modeling): an Introduction to Theory. In: Silhavy, R. (eds). Artificial Intelligence Trends in Systems. CSOC 2022. Lecture Notes in Networks and Systems, vol. 502, 585–591. Springer, Cham. DOI: 10.1007/978-3-031-09076-9_54.

Ilyin, V. D. 1989. Sistema porozhdeniya programm [Program generating system]. Nauka, Moscow. 264 p. ISBN: 5-02-006578-1.

Ilyin, A. V. 2007. Konstruirovaniye razreshayushchikh struktur na zadachnykh grafakh sistemy znaniy o programmiruyemykh zadachakh [Construction of resolving structures on problem graphs of the knowledge system about programmable tasks], Informatsionnye Tekhnologii i Vychslitel'nye Sistemy [Information Technologies and Computing Systems], 3, 30–36.

Ilyin, A. V. & Ilyin, V. D. 2021. Updated methodology for task knowledge based development of parallel programs. In: Silhavy R., Silhavy P., Prokopova Z. (eds.). CoMeSySo 2021. LNNS. Vol. 231, 319–328. Springer, Cham. DOI: 10.1007/978-3-030-90321-3_25.

Walter, W. G. 1953. The living brain. New York, Norton. 311 p.

Freeman, W. J. 1986. W. G. Walter: The Living Brain. In: Palm G., Aertsen A. (eds). Brain Theory. Springer, Berlin, Heidelberg. DOI: 10.1007/978-3-642-70911-1_17.