Abstract—From the standpoint of a new theory of chaos and self-organization with the use of novel modeling methods, the dynamics of the behavioral cues of a student’s psychological state in multifaceted activity have been analyzed. The Bourdon attention test modified by P.A. Rudick was used to measure attention levels. A comparative statistical analysis of the results has been carried out to assess the properties of attention in students of different ages who live in the Surgut and Samara regions. The dynamics of the changes in the K, E, and A variables have been explored and the coefficients have been calculated for the entire test and for each minute of the experiment. The characteristics of the attention development in students have been investigated and the age- and sex-related differences, as well as the difference in the attention indices in students, have been determined.
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REFERENCES
E. V. Maistrenko, D. V. Beloshchenko, A. A. Prasolova, et al., Slozhnost’ Razum Postneklassika 3, 27 (2017). https://doi.org/10.12737/article_59df765cd92017.95788454
Yu. M. Popov, S. N. Rusak, L. M. Bikmukhametova, et al., Slozhnost’ Razum Postneklassika 2, 32 (2017). https://doi.org/10.12737/article_594cef607626d3.12906030
O. E. Filatova, S. A. Prokhorov, and L. K. Ilyashenko, Vestn. Nov. Med. Tekhnol. 24 (4), 33 (2017). https://doi.org/10.12737/article_5a38f0e9a61bd8.13651439
V. M. Eskov, A. A. Khadartsev, O. E. Filatova, et al., Vestn. Nov. Med. Tekhnol. 24 (4), 20 (2017). https://doi.org/10.12737/article_5a38f0267f9733.52971633
V. M. Eskov, Yu. P. Zinchenko, O. E. Filatova, et al., Vestn. Mosk. Gos. Univ., Ser. 14: Psikhol., No. 3, 22 (2017). https://doi.org/10.11621/vsp.2017.03.22
V. M. Eskov, Yu. P. Zinchenko, O. E. Filatova, Vestn. Mosk. Gos. Univ., Ser. 14: Psikhol., No. 1, 3 (2017).
L. A. Mikhailichenko and L. V. Mezentseva, Bul. Exp. Biol. Med. 158 (3), 308 (2015).
L. V. Mezentseva and S. S. Pertsov, Biophysics 60 (5), 823 (2015).
L. V. Mezentseva, S. S. Pertsov, F. Yu. Kopilov, et al., Biophysics 62 (3), 499 (2017).
G. R. Ivanitskii, Phys. Usp. 53, 327 (2010).
G. R. Ivanitskii, Phys. Usp. 55, 1155 (2012).
G. R. Ivanitskii, Phys. Usp. 187, 757 (2017).
T. V. Gavrilenko, V. M. Es’kov, A. A. Khadartsev, et al., Adv. Gerontol. 27 (1), 30 (2014).
V. M. Eskov, Emergence: Complexity and Organization 16 (2), 107 (2014).
V. M. Eskov, T. V. Gavrilenko, V. V. Kozlova, et al., Meas. Techniques 55 (9), 1096 (2012).
V. M. Eskov, V. V. Eskov, M. Ya. Braginskii, et al., Meas. Techniques 54 (7), 832 (2011).
V. B. Betelin, V.M. Eskov, V.A. Galkin et al., Dokl. Math. 95 (1), 92 (2017).
Y. V. Vokhmina, V. M. Eskov, T. V. Gavrilenko, and O. E. Filatova, Meas. Techniques 58 (4), 65 (2015).
V. G. Zilov, V. M. Eskov, A. A. Khadartsev, et al., Bull. Exp. Biol. Med. 163 (1), 1 (2017).
V. M. Eskov, V. V. Eskov, T. V. Gavrilenko, et al., Biophysics 62 (1), 143 (2017).
V. M. Eskov, V. V. Eskov, O. E. Filatova, et al., Adv. Gerontol. 6 (1), 24 (2016).
V. M. Eskov, V. V. Eskov, Y. V. Vochmina, et al., Moscow Univ. Phys. Bull. 72 (3), 309 (2017).
V. M. Eskov, A. E. Bazhenova, U. V. Vochmina, et al., Russ. J. Biomech. 21 (1), 14 (2017).
V. M. Eskov, A. A. Khadartsev, V. V. Eskov, et al., Adv. Gerontol. 6 (3), 191 (2016).
V. M. Es’kov, V. A. Papshev, and S. V. Kulaev, Meas. Techniques 47 (7), 715 (2004).
V. G. Zilov, A. A. Khadartsev, V. V. Eskov, et al., Bull. Exp. Biol. Med. 164 (2), 115 (2017).
V. V. Eskov, T. V. Gavrilenko, V. M. Eskov, et al., Tech. Phys. 62 (11), 1611 (2017).
V. M. Eskov, O. E. Filatova, V. V. Eskov, et al., Biophysics 62 (5), 809 (2017).
V. M. Eskov, Neurocomputing 11 (2–4), 203 (1996).
V. M. Es’kov, S. V. Kulaev, Yu. M. Popov, et al., Meas. Techniques 49 (1), 59 (2006).
V. M. Eskov, T. V. Gavrilenko, Y. V. Vokhmina, et al., Meas. Techniques 57 (6), 720 (2014).
G. R. Garaeva, V. M. Eskov, V. V. Eskov, et al., Hum. Ecol. 9, 50 (2015).
V. M. Eskov, Neural Network World 4 (4), 403.
V. M. Eskov, Model. Meas. Control C 48 (1–2), 47 (1995).
V. M. Es’kov and O. E. Filatova, Neurophysiology 25 (6), 348 (1995).
V. M. Es’kov, O. E. Filatova, and V. P. Ivashenko, Meas. Techniques 37 (8), 967 (1994).
O. E. Filatova, V. M. Eskov, and Y. M. Popov, in Int. RNNS/IEEE Symp. on Neuroinformatics and Neurocomputers (1995), p. 166.
V. M. Eskov, V. V. Eskov, J. V. Vochmina, et al., Moscow Univ. Phys. Bull. 71 (2), 143 (2016).
V. V. Eskov, O. E. Filatova, T. V. Gavrilenko, et al., Biophysics 62 (6), 961 (2017).
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Kolosova, A.I., Filatov, M.A., Maistrenko, E.V. et al. An Analysis of the Attention Indices in Students from Surgut and Samara Oblast from the Standpoint of Stochastics and Chaos. BIOPHYSICS 64, 662–666 (2019). https://doi.org/10.1134/S0006350919040067
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DOI: https://doi.org/10.1134/S0006350919040067