Abstract
In the paper, a problem of socio-economic system management, as exemplified by one of the regions of the Russian Federation, is solved. An algorithm of an optimal control using an index method for building a transitional period and with an ability to take into account growth rates in the engineering and social fields is created. Terms of reference are given on the basis of a regional economic system macro-level model, with production capital and human capital viewed as development factors. A human capital modeling underlying hypothesis is an assumption that it is built on three main aggregative premises: healthcare, education and culture. Including human capital factor in the macro model and an ability to consider progress growth rates are two distinctive features of a given management problem statement. The problem solving algorithm comprises two steps: building the quasi magistral itself and figuring an optimized trajectory which would propel and economic system to the quasi magistral. A gateway period is a transitional period where an optimal control is built using an index method. A transitional period can be diminished by speeding up progress growth rates in the social and engineering fields. In this paper, a two-stage way to build an optimized investment distribution is used upon a model which contains more than to factors for the first time. In this case, a quasi-stationary state is an optimized balanced growth half line. As a statistical base for the analysis, a demographic data and an Udmurt Republic human capital and production capital investment volume data are used. For an unknown parameters’ identification, a period of years 1998–2018 is drawn upon. Optimized investment rates which enable an economic system to reach balanced growth trajectory by the year 2025 are calculated. The proposed method can be used for an optimal control of socio-economic systems, as well as for comparing and estimating their growth rates in the social and engineering fields.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Ketova, K.V.: Mathematical Models of Economic Dynamics. ISTU Publishing House, Izhevsk (2013)
Haken, G., Plath, P., Ebeling, V., Romanovskii, U.: General self-organization principles in nature and society. On the history of synergetics. Institute of computer research, Moscow-Izhevsk, Russia (2018)
Goldin, C.: Human Capital. Springer-Verlag, Heidelberg (2016)
Ketova, K.V., Romanovskii, U.M., Rusiak, I.G.: Mathematical modeling of human capital dynamics. Model. Comput. Res. 11(2), 329–342 (2019)
Ustinova, O.E.: Human capital and its impact on the innovative development of regions in Russia. Econ. Relat. 9(2), 987–1008 (2019)
Petty, W.: Works on Economics and Statistics. Socekgiz, Moscow (1940)
Smith, A.: An inquiry into the nature and causes of the wealth of nations. Library an anthology of economics classics. 1 (edn.), Ekonov, Moscow, Russia (1993)
Marshall, A.: Principles of Economics. Progress, Moscow (1993)
Fisher, I.: Senses of Capital. Econ. J. 7, 201–202 (1897)
Becker, G.S.: Human Capital: A Theoretical and Empirical Analysis with Special Reference to Education. Columbia University Press, N.Y. (1975)
Schultz, T.W.: Economic Value of Education. Columbia University Press, New York (1963)
Bowen, H.R.: Investment in Learning. Jossey-Bass publisher, San Francisco (1978)
Forrester, J.: World Dynamics. Nauka, Moscow (1978)
Ben-Porath, Y.: The Production of Human Capital and the Life Cycle of Earning. J. Polit. Econ. 75, 352–365 (1987)
Kapelushnikov, R.I.: A note on national human capital. Higher school of economics State university, Moscow, Russia (2008)
Dobrynin, A.I., Diatlov, S.A., Tsyrenova, E.D.: Human Capital in Transitional Economics: Development, Estimation, Utilization Efficiency. Nauka, Saint-Petersburg (1999)
Koritsky, A.V.: An Introduction to Human Capital Theory. Siberian University of Consumer Cooperation Publishing House, Novosibirsk (2000)
Kildyiarova, G.R.: The Impact of Human Capital on Innovational Processes and Gross Domestic Product. Creative Econ. 9(12), 1647–1656 (2015)
Gontmakher, E.: Russian human capital: current status and trends. World Econ. Int. Relat. 61(3), 15–24 (2017)
Fiodorova, O.I., Zuev, E.G.: The human capital accumulation and implementation in the new environment: limits and possibilities. Creative Econ. 12(10), 1649–1660 (2018)
Marginson, S.: Limitations of human capital theory. Stud. High. Educ. 44(3), 1–15 (2017)
Aivazyan, S.A.: An analysis of synthetic categories of Russian territorial entities’ population life quality: their estimation, dynamics, main tendencies. Qual. Life Russ. Reg. 11, 5–40 (2002)
Vladimirova, D.C.: Challenges of information economics: a human capital development. Labor Econ. 6(3), 1029–1042 (2019)
Borsh, L.M., Zharova, A.R.: A methodology for developing human capital from the perspective of information economics. Creative Econ. 13(11), 2141–2158 (2019)
German, M.V., Pomuleva, N.S.: The human capital as a key factor of innovational development. Tomsk State Univ. Herald 17, 149–153 (2012)
Troitskaia, A.A.: A competitive human capital of a worker: development and implementation issues. Labor Econ. 6(2), 647–658 (2019)
Gabdullin, N.M.: A human capital: modern approach and estimation methods. Issues Innov. Econ. 8(4), 785–798 (2018)
Ketova, K.V.: The development of regional economic system strategy research and optimization methods. Doctor of science in physics and mathematics doctoral dissertation. Federal State-Funded Educational Institution of Higher Professional Education Izhevsk State Technical University, Izhevsk, Russia (2008)
Intriligator, M.: Mathematical Optimization and Economic Theory. Airis Press, Moscow (2002)
Belenkii, V.Z.: Economic Dynamics Optimal Models. A Conceptual Framework. One-dimensional Models. Nauka, Moscow (2007)
Pontryagin, L.S.: The Mathematical Theory of Optimal Processes. In: Pontryagin, L.S.V., Boltyanskiy, G. (eds.) et al.: Nauka, Moscow (1961)
Gale, D.: Pure exchange equilibrium of dynamic economic models. J. Econ. Theory 6, 12–36 (1973)
Kalitkin, N.N.: Numerical Analysis. Nauka, Moscow (2011)
Ketova, K.V., Rusiak, I.G., Derendyaeva, E.A.: Regional economic system optimal control problem solution. Programming and computing unit. A registration approval certificate for ECM â„–. 2013615414. Application â„–. 2013612795. Registered in the ECM programs register on 6 June 2013
Ketova, K.V., Rusyak, I.G., Derendyaeva, E.A.: Solution of the problem of optimum control regional economic system in the conditions of the scientific and technical and social and educational progress. Math. Model. 10(25), 65–79 (2013)
Russian state statistics service official website. http://www.gks.ru. Accessed 11 May 2020
Federal treasury official website. http://www.roskazna.ru. Accessed 11 May 2020
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG
About this paper
Cite this paper
Ketova, K.V., Saburova, E.A. (2020). Addressing a Problem of Regional Socio-Economic System Control with Growth in the Social and Engineering Fields Using an Index Method for Building a Transitional Period. In: Silhavy, R., Silhavy, P., Prokopova, Z. (eds) Software Engineering Perspectives in Intelligent Systems. CoMeSySo 2020. Advances in Intelligent Systems and Computing, vol 1295. Springer, Cham. https://doi.org/10.1007/978-3-030-63319-6_35
Download citation
DOI: https://doi.org/10.1007/978-3-030-63319-6_35
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-63318-9
Online ISBN: 978-3-030-63319-6
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)