On approximations of the function |x|^s by the Vallee Poussin means of the Fourier series by the system of the Chebyshev – Markov rational fractions

The approximative properties of the Valle Poussin means of the Fourier series by the system of the Chebyshev – Markov rational fractions in the approximation of the function |x|^s, 0 < s < 2 are investigated. The introduction presents the main results of the previously known works on the Vallee Poussin means in the polynomial and rational cases, as well as on the known literature data on the approximations of functions with power singularity. The Valle Poussin means on the interval [–1,1] as a method of summing the Fourier series by one system of the Chebyshev – Markov rational fractions are introduced. In the main section of the article, a integral representation for the error of approximations by the rational Valle Poussin means of the function |x|^s, 0 < s < 2, on the segment [–1,1], an estimate of deviations of the Valle Poussin means from the function |x|^s, 0 < s < 2, depending on the position of the point on the segment, a uniform estimate of deviations on the segment [–1,1] and its asymptotic expression are found. The optimal value of the parameter is obtained, at which the deviation error of the Valle Poussin means from the function |x|^s, 0 < s <2, on the interval [–1,1] has the highest velocity of zero. As a consequence of the obtained results, the problem of approximation of the function |x|^s, s > 0, by the Valle Poussin means of the Fourier series by the system of the Chebyshev first-kind polynomials is studied in detail. The pointwise estimation of approximation and asymptotic estimation are established.

The work is both theoretical and applied. Its results can be used to read special courses at mathematical faculties and to solve specific problems of computational mathematics.

1. Valleé Poussin Ch. de La. Sur la meilleure approximation des function d’une variable reelle par des expressions d’ordre donne. Comptes Rendus de l’ Academie des Sciences, Paris. Series I: Math., 1918, vol. 166, pp. 799–802.

2. Valleé Poussin Ch. de La. Lecons sur l’approximation des fonctions d’une variable réelle. Paris, 1919. 150 p.

3. Nikol’skii S. M. On some methods of approximation by trigonometric sums. Izvestiya AN SSSR. Seriya matematicheskaya [Mathematics of the USSR-Izvestiya], 1940, vol. 4, no. 6, pp. 509–520 (in Russian).

4. Stechkin S. B. On the sums of Valle Poussin. Doklady Akademii nauk SSSR [Proceedings of the academy of sciences of the USSR], 1951, vol. 80, no. 4, pp. 545–548 (in Russian).

5. Teliakovskii S. A. approximation of differentiable functions by sums of Valle Poussin. Doklady Akademii nauk SSSR [Proceedings of the Academy of Sciences of the USSR], 1958, vol. 121, no. 3, pp. 426–429 (in Russian).

6. Efimov A. V. On the approximation of periodic functions by sums of Valle Poussin. Izvestiya AN SSSR. Seriya matematicheskaya [Mathematics of the USSR-Izvestiya], 1959, vol. 23, no. 5, pp. 737–770 (in Russian).

7. Timan A. F. A generalization of some results of A. N. Kolmogorov and S. M. Nikol’skii. Doklady Akademii nauk SSSR [Proceedings of the Academy of Sciences of the USSR], 1951, vol. 81, no. 4, pp. 509–511 (in Russian).

8. Ganzburg I. M. A generalization of some results of S. M. Nikol’skii and A. F. Timan. Doklady Akademii nauk SSSR [Proceedings of the Academy of Sciences of the USSR], 1957, vol. 116, no. 5, pp. 727–730 (in Russian).

9. Ganzburg I. M. Linear processes of approximation of functions satisfying the Lipschitz condition by algebraic polynomials. Izvestiya AN SSSR. Seriya matematicheskaya [Mathematics of the USSR-Izvestiya], 1958, vol. 22, no. 6, pp. 771–810 (in Russian).

10. Omataev T. O. The approximation of functions that are continuous on a segment by truncated de la Vallée – Poussin sums. Soviet Mathematics, 1977, vol. 21, no. 6, pp. 78–83.

11. Rusak V. N. A method of approximation by rational functions on the real line. Mathematical notes of the Academy of Sciences of the USSR, 1977, vol. 22, no. 3, pp. 699–702. https://doi.org/10.1007/bf02412498

12. Rusak V. N. Sharp order estimates for best rational approximations in classes of functions representable as convolutions. Mathematics of the USSR-Sbornik, 1987, vol. 56, no. 2, pp. 491–513.

13. Grib N. V. Operator method for approximation of bounded variation functions. Vestsі BDPU. Seryya 3. Fіzіka. Matematyka. Іnfarmatyka. Bіyalogіya. Geagrafіya = BSPU Bulletin. Series 3. Physics. Mathematics. Informatics. Biology. Geography, 2015, no. 2, pp. 28–35 (in Russian).

14. Rovba E. A. Approximation of functions differentiable in the Riemann – Liouville sense by rational operators. Doklady Akademii nauk Belarusi = Doklady of the Academy of Sciences of Belarus, 1996, vol. 40, no. 6, pp. 18–22 (in Russian).

15. Smotritskii K. A. On the approximation of functions of bounded variation by rational operators on a segment. Vesnіk Grodzenskaga dzyarzhaўnaga ўnіversіteta іmya Yankі Kupaly. Seryya 2. Matematyka. Fіzіka. Іnfarmatyka, vylіchal’naya tekhnіka і kіravanne = Vesnik of Yanka Kupala State University of Grodno. Series 2. Mathematics. Physics. Informatics, Сomputer Technology and its Сontrol, 2005, no. 2, pp. 60–68 (in Russian).

16. Bernstein S. N. Sur la meilleure approximation de |x| p par des polynomes de degres tre’s eleves. Izvestiya AN SSSR. Seriya matematicheskaya [Mathematics of the USSR-Izvestiya], 1938, vol. 2, no. 2, pp. 169–190 (in Russian).

17. Varga R. S., Carpenter A. J. Some numerical results on best uniform rational approximation of x a on [0,1]. Numerical Algorithms, 1992, vol. 2, no. 2, pp. 171–186. https://doi.org/10.1007/bf02145384

18. Raitsin R. A. Asymptotic properties of uniform approximations of functions with algebraic singularities by partial sums of a Fourier–Chebyshev series. Soviet Mathematics, 1980, vol. 24, no. 3, pp. 45–49.

19. Rouba Y., Patseika P., Smatrytski K. On a system of rational Chebyshev–Markov fractions. Analysis Mathematica, 2018, vol. 44, no. 1, pp. 115–140. https://doi.org/10.1007/s10476-018-0110-7

20. Potseiko P. G. On one representation of the singular Jackson integral and approximation of a function |x| s on a segment [–1,1]. Vesnіk Grodzenskaga dzyarzhaўnaga ўnіversіteta іmya Yankі Kupaly. Seryya 2. Matematyka. Fіzіka. Іnfarmatyka, vylіchal’naya tekhnіka і kіravanne = Vesnik of Yanka Kupala State University of Grodno. Series 2. Mathematics. Physics. Informatics, Сomputer Technology and its Сontrol, 2019, vol. 9, no. 2, pp. 22–38 (in Russian).

21. Sidorov Iu. V., Fedoriuk M. V., Shabunin M. I. Lectures on the Theory of Functions of a Complex Variable. Moscow, Nauka Publ., 1989. 480 p. (in Russian).

22. Evgrafov M. A. Asymptotic estimates and entire functions. Moscow, Nauka Publ., 1979. 320 p. (in Russian).

23. Fedoriuk, M. V. Asymptotics. Integrals and Series. Moscow, Librokom Publ., 1987. 544 p. (in Russian).

24. Copson E. T. Tracts in Mathematics and Mathematical Physics. No 55. Asymptotic Expansions. Cambridge, 1965. 124 p.

25. Rovba E. A., Mikulich E. G. Constants in the approximation of |x| using the rational interpolation processes. Doklady Natsional’noi akademii nauk Belarusi = Doklady of the National Academy of Sciences of Belarus, 2009, vol. 53, no. 6, pp. 11– 15 (in Russian).