Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$

Ahmet Duman; Gülnur Çelik Kızılkan; Kemal Aydın

Research Article

Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$

Year 2018, Volume: 6 Issue: 1, 98 - 101, 15.04.2018

Ahmet Duman Gülnur Çelik Kızılkan Kemal Aydın

Abstract

In this study, it is investigated that the Schur stable difference equation systems $y(n+k)=Cy(n)$ under which perturbations remains Schur stable. Some continuity theorems of the first order systems in the literature are re-expressed for the $k-th$ order system $y(n+k)=Cy(n)$. All the results obtained are also supplemented by numerical examples.

Keywords

Schur stability, difference equations, sensitivity, perturbation systems, condition number

References

[1] Akın, Ö., Bulgak, H.,Linear difference equations and stability theory, Selc¸uk University, Research Center of Applied Mathematics, Konya(in Turkish), 1998.
[2] H. Bulgak, Pseudoeigenvalues, spectral portrait of a matrix and their connections with different criteria of stability. Error Control and Adaptivity in Scientific Computing, NATO Science Series, Series C: Mathematical and Physical Sciences, in: Bulgak H and Zenger C (Eds), Kluwer Academic Publishers, Vol: 536 (1999), 95-124.
[3] Godunov, S. K., Modern aspects of linear algebra, RI: American Mathematical Society, Translation of Mathematical Monographs 175. Providence, 1998.
[4] A.Duman and K. Aydın, Sensitivity of Schur stability of systems of linear difference equations with constant coefficients, Scientific Research and Essays, Vol: 6, No. 28 (2011),5846–5854.
[5] A.Y.Bulgakov, An effectively calculable parameter for the stability quality of systems of linear differential equations with constant coefficients. Sib. Math. J., Vol: 21 (1980),339-347.
[6] A.Duman and K. Aydın, Sensitivity of Schur stability of monodromy matrix, Applied Mathematics and Computation, Vol: 217, No. 15 (2011),6663–6670.
[7] A.Duman and K. Aydın, Some Results on the Sensitivity of Schur Stability of Linear Difference Equations with Constant Coefficients, Konuralp Journal of Mathematics, Vol: 2, No: 2 (2014), 22–34.
[8] T. M. Apostol, Explicit Formulas for Solutions of the Second-Order Matrix Differential Equation Y00 = AY, The American Mathematical Monthly, Vol: 82, No. 2 (Feb., 1975)(1975), 159-162.
[9] H. Bulgak and D. Eminov D ,Computer dialogue system MVC. Selc¸uk J. Appl. Math., Vol: 2 (2001), 17-38 (available from http://www5.in.tum.de/selcuk/sjam012203.html).

Year 2018, Volume: 6 Issue: 1, 98 - 101, 15.04.2018

Ahmet Duman Gülnur Çelik Kızılkan Kemal Aydın

Abstract

References

[1] Akın, Ö., Bulgak, H.,Linear difference equations and stability theory, Selc¸uk University, Research Center of Applied Mathematics, Konya(in Turkish), 1998.
[2] H. Bulgak, Pseudoeigenvalues, spectral portrait of a matrix and their connections with different criteria of stability. Error Control and Adaptivity in Scientific Computing, NATO Science Series, Series C: Mathematical and Physical Sciences, in: Bulgak H and Zenger C (Eds), Kluwer Academic Publishers, Vol: 536 (1999), 95-124.
[3] Godunov, S. K., Modern aspects of linear algebra, RI: American Mathematical Society, Translation of Mathematical Monographs 175. Providence, 1998.
[4] A.Duman and K. Aydın, Sensitivity of Schur stability of systems of linear difference equations with constant coefficients, Scientific Research and Essays, Vol: 6, No. 28 (2011),5846–5854.
[5] A.Y.Bulgakov, An effectively calculable parameter for the stability quality of systems of linear differential equations with constant coefficients. Sib. Math. J., Vol: 21 (1980),339-347.
[6] A.Duman and K. Aydın, Sensitivity of Schur stability of monodromy matrix, Applied Mathematics and Computation, Vol: 217, No. 15 (2011),6663–6670.
[7] A.Duman and K. Aydın, Some Results on the Sensitivity of Schur Stability of Linear Difference Equations with Constant Coefficients, Konuralp Journal of Mathematics, Vol: 2, No: 2 (2014), 22–34.
[8] T. M. Apostol, Explicit Formulas for Solutions of the Second-Order Matrix Differential Equation Y00 = AY, The American Mathematical Monthly, Vol: 82, No. 2 (Feb., 1975)(1975), 159-162.
[9] H. Bulgak and D. Eminov D ,Computer dialogue system MVC. Selc¸uk J. Appl. Math., Vol: 2 (2001), 17-38 (available from http://www5.in.tum.de/selcuk/sjam012203.html).

There are 9 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Articles
Authors	Ahmet Duman Gülnur Çelik Kızılkan Kemal Aydın
Publication Date	April 15, 2018
Submission Date	April 3, 2018
Acceptance Date	April 17, 2018
Published in Issue	Year 2018 Volume: 6 Issue: 1

Cite

APA	Duman, A., Çelik Kızılkan, G., & Aydın, K. (2018). Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$. Konuralp Journal of Mathematics, 6(1), 98-101.
AMA	Duman A, Çelik Kızılkan G, Aydın K. Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$. Konuralp J. Math. April 2018;6(1):98-101.
Chicago	Duman, Ahmet, Gülnur Çelik Kızılkan, and Kemal Aydın. “Sensitivity of Schur Stability of the $k-Th$ Order Difference Equation System $y(n+k)=Cy(n)$”. Konuralp Journal of Mathematics 6, no. 1 (April 2018): 98-101.
EndNote	Duman A, Çelik Kızılkan G, Aydın K (April 1, 2018) Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$. Konuralp Journal of Mathematics 6 1 98–101.
IEEE	A. Duman, G. Çelik Kızılkan, and K. Aydın, “Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$”, Konuralp J. Math., vol. 6, no. 1, pp. 98–101, 2018.
ISNAD	Duman, Ahmet et al. “Sensitivity of Schur Stability of the $k-Th$ Order Difference Equation System $y(n+k)=Cy(n)$”. Konuralp Journal of Mathematics 6/1 (April 2018), 98-101.
JAMA	Duman A, Çelik Kızılkan G, Aydın K. Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$. Konuralp J. Math. 2018;6:98–101.
MLA	Duman, Ahmet et al. “Sensitivity of Schur Stability of the $k-Th$ Order Difference Equation System $y(n+k)=Cy(n)$”. Konuralp Journal of Mathematics, vol. 6, no. 1, 2018, pp. 98-101.
Vancouver	Duman A, Çelik Kızılkan G, Aydın K. Sensitivity of Schur Stability of the $k-th$ Order Difference Equation System $y(n+k)=Cy(n)$. Konuralp J. Math. 2018;6(1):98-101.

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