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Solution of the real and complex eigenvalue problems in the ABS class

József Abaffy
József Abaffy
   | 07. Nov. 2022
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Pure Mathematics and Applications
Band 30 (2022): Heft 3 (October 2022)
Special issue dedicated to 70th anniversary of prof. Peter Tallos
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Online veröffentlicht: 07. Nov. 2022
Seitenbereich: 92 - 109
Eingereicht: 30. Juli 2021
DOI: https://doi.org/10.2478/puma-2022-0028
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© 2022 József Abaffy, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

[1] J. Abaffy, E. Spedicato: ABS Projections Algorithms Mathematical Techniques for Linear and Nonlinear Algebraic Equations, Ellis Horwood Ltd, Chichester, England, (1989) Search in Google Scholar

[2] J. Abaffy M. Bertocchi, A.Torriero c Perturbations of M-matrices via ABS methods and their applications to input-output analysis Applied Mathematics and Computation Vol. 94 145 170 (1998)10.1016/S0096-3003(97)10085-6 Search in Google Scholar

[3] J. Abaffy, Sz. Fodor: Reortogonalization methods in ABS classes, Acta Polytechnica Hungarica Vol 12 No 6 pp. 23-41 (2015)10.12700/APH.12.6.2015.6.2 Search in Google Scholar

[4] J. Abaffy, E. Feng, A. Galántai: Introduction to ABS methods for equations and Optimization Part I. Saarbrücken (Germany) : GlobeEdit 131 pages (2017) Search in Google Scholar

[5] J. Abaffy, Sz. Fodor: ABS-Based Direct Method for Solving Complex Systems of Linear Equations Mathematics 9 : 19 p. 2527 (2021)10.3390/math9192527 Search in Google Scholar

[6] Anderson, E., Z. Bai, C. Bischof, S. Blackford, J. Demmel, J. Dongarra, J. Du Croz, A. Greenbaum, S. Hammarling, A. McKenney, and D. Sorensen, LAPACK User’s Guide (http://www.netlib.org/lapack/lug/la-pack_lug.html), Third Edition, SIAM, Philadelphia, (1999).10.1137/1.9780898719604 Search in Google Scholar

[7] W. E. Arnoldi., The principle of minimized iteration in the solution of the matrix eigenvalue problem, Quart. Appl. Math., 9 pp. 17-29. (1951)10.1090/qam/42792 Search in Google Scholar

[8] Jesse L. Barlow, Reorthogonalization for the Golub–Kahan–Lanczos bidiagonal reduction, Numer. Math. 124:237–278 DOI 10.1007/s00211-013-0518-8 (2013) Open DOISearch in Google Scholar

[9] W. Daniel, W. B. Gragg, L. Kaufman and G. W. Stewart Reorthogonalization and Stable Algorithms for Updating the Gram-Schmidt QR Factorization, Math. of Comput., Vol 30, No. 136 pp. 772-795 (1976)10.1090/S0025-5718-1976-0431641-8 Search in Google Scholar

[10] A. Galántai, Cs. J. Heged¶s: Hyman’s method revisited, J. of Comput. and Applied Math. Vol 226 pp. 246-258 (2009)10.1016/j.cam.2008.08.004 Search in Google Scholar

[11] H. Golub, C.F. Van Loan: Matrix computation, North Oxford Academic Press, Oxford (1983) Search in Google Scholar

[12] Cs. J. Heged¶s: Reorthogonalization Methods Revisited Ata Polytechnica Hungarica 12 : 8 pp. 7-28. (2015)10.12700/APH.12.8.2015.8.1 Search in Google Scholar

[13] W. Heisenberg: Die beobachtbaren Grössen in der Theorie der Elementarteilchen. I Z. Phys. 120 (7–10):pp. 513–538. (1943)10.1007/BF01329800 Search in Google Scholar

[14] W. Heisenberg: Die beobachtbaren Größen in der Theorie der Elementarteilchen. II Z. Phys 120, pp 673–702 (194310.1007/BF01336936 Search in Google Scholar

[15] W. Heisenberg: Die beobachtbaren Größen in der Theorie der Elementarteilchen. III Z. Phys. 123, pp. 93–112 (1944)10.1007/BF01375146 Search in Google Scholar

[16] D.L. Karney, R T. Gregory: A collection of matrices for testing computational algorithms Wiley pp 163 (1969) Search in Google Scholar

[17] W.W. Leontief. „An Alternative to Aggregation in Input-Output Analysis and National Accounts”. Review of Economics and Statistics. 49 (3): 412–419. (1967) doi: 10.2307/1926651. JSTOR 1926651 Open DOISearch in Google Scholar

[18] N. Parlett, The Symmetric Eigenvalue Problem, Prentice-Hall, Inc., Englewood Cli s, N.J. 07632. ISBN 0-13-880047-2.(1980), Search in Google Scholar

[19] Y. Saad, Variations on Arnoldi’s method for computing eigenelements of large unsymmetric matrices, Lin. Alg. Appl., Vol. 34, pp. 269-295. (1980)10.1016/0024-3795(80)90169-X Search in Google Scholar

[20] Y. Saad and M. H. Schultz: A Generalized Minimal Residual Algorithm for Solving Nonsymmetric Linear Systems, SIAM J. ScI. Stat. Comput Vo|. 7, No. 3, pp 856-869 July (1986) Read More-https://epubs.siam.org/doi/abs/10.1137/090705810.1137/0907058 Search in Google Scholar

[21] G. W. Stewart, Matrix Algorithms II: Eigensystems, SIAM, Vol. II. (2001)10.1137/1.9780898718058 Search in Google Scholar

[22] O. S. Vaidya and S. Kumarb, Analytic hierarchy process: An overview of applications, European Journal of Operational Research Vol. 169, No-1 pp. 1-29 (2006)10.1016/j.ejor.2004.04.028 Search in Google Scholar

[23] D. S. Watkins: The Matrix Eigenvalue Problem, Society for Industrial and Applied Mathematics 451 pages (2007)10.1137/1.9780898717808 Search in Google Scholar

[24] J. H. Wilkinson Convergence of the LR, QR, and related algorithms, The Computer Journal, pp 77-84 (1965,)10.1093/comjnl/8.1.77 Search in Google Scholar

[25] J.H. Wilkinson: Algebraic eigenvalue problem Oxford University Press, 683 pages (1965) Search in Google Scholar

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