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Controlling national income and public debt via fiscal policy. A model matching algorithmic approach
Vestnik Sankt-Peterburgskogo universiteta. Prikladnaâ matematika, informatika, processy upravleniâ, no. 4 (2016), pp. 86-91 Cet article a éte moissonné depuis la source Math-Net.Ru

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Our aim in this paper is to present an application of the exact model matching approach to a linear, discrete macroeconomic model with delays. The solution is based on algebraic methods and the development, in computer algebra software, of appropriate symbolic algorithms that produce a class of feedback laws as a solution. These feedback laws constitute a class of potential policies that the policymaker can implement on the system and modify its dynamics so that predetermined, desired targets are met. In order to see the effects of different policies, we implement two feedback laws on the system at hand. Refs 9. Table 1.
Keywords: algebraic methods, linear discrete systems, model matching, symbolic algorithms. 
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     title = {Controlling national income and public debt via fiscal policy. {A} model matching algorithmic approach},
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S. Kotsios; I. Kostarakos. Controlling national income and public debt via fiscal policy. A model matching algorithmic approach. Vestnik Sankt-Peterburgskogo universiteta. Prikladnaâ matematika, informatika, processy upravleniâ, no. 4 (2016), pp. 86-91. http://geodesic.mathdoc.fr/item/VSPUI_2016_4_a7/

[1] Astrom K. J., Wittenmark B., Computer-Controlled Systems: Theory and Design, 3rd ed., Dover Publ., New York, 2011, 576 pp.

[2] Goodwin G., Sin K. S., Adaptive filtering prediction and control, Dover Publ., New York, 2009, 560 pp. | Zbl

[3] Kucera V., “Exact model matching, polynomial equation approach”, Intern. Journal of systems science, 12:12 (1981), 1477–1484 | DOI | MR | Zbl

[4] Kucera V., Sebek M., “Exact model matching of discrete linear systems”, Systems and Control Letters, 1:5 (1982), 321–325 | DOI | Zbl

[5] Kostarakos I., Kotsios S., “Fiscal policy design in Greece in the aftermath of the crisis: an algorithmic approach”, Computation Economics, 2016 (unpublished)

[6] Kostarakos I., Kotsios S., “Feedback policy rules for goverment spending: an algorithmic approach”, Of Economic structures, 2016 (unpublished)

[7] Kotsios S., Leventidis J., “A feedback policy for a modified Samuelson–Hicks model”, Intern. Journal of systems science, 35:6 (2004), 331–341 | DOI | MR | Zbl

[8] Prasolov A. V., Some quantitative methods and models in economic theory, Nova Science Publ., New York, 2016, 301 pp.

[9] Samuelson P., “Interactions between the multiplier analysis and the principle of acceleration”, Review of Economics and Statistics, 21:2 (1939), 75–78 | DOI