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A numerical algorithm for computing the inverse of a Toeplitz pentadiagonal matrix

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the current paper, we present a computationally efficient algorithm for obtaining the inverse of a pentadiogonal toeplitz matrix. Few conditions are required, and the algorithm is suited for implementation using computer algebra systems.
Rocznik
Strony
83--95
Opis fizyczny
Bibliogr. 16 poz., tab.
Twórcy
autor
  • National School of Applied Sciences, Abdelmalek Essaadi University Tangier, Morocco
autor
  • Regional Center of the Trades of Education and Training (CRMEF)-Tangier, Avenue My Abdelaziz Souani, BP: 3117, Tangier, Morocco
autor
  • National School of Applied Sciences, Abdelmalek Essaadi University Tangier, Morocco
Bibliografia
  • [1] Aceto, L., Ghelardoni, P., & Magherini, C. (2012). PGSCM: A family of P-stable boundary value methods for second-order initial value problems. J. Comput. Appl. Math., 236, 3857-3868; El-Mikkawy, M., & Karawia, A. (2006). Inversion of general tridiagonal matrices. Appl. Math. Lett., 19, 712720.
  • [2] Aceto, L., Ghelardoni, P., & Magherini, C. (2012). Boundary value methods for the reconstruction of SturmLiouville potentials. Appl. Math. Comput., 219, 2960-2974; Losiak, J., Neuman, E., & Nowak, J. (1988).The inversion of cyclic tridiagonal matrices. Zastos. Mat., 20(1), 93102.
  • [3] Kaya, D. (2003). An explicit and numerical solutions of some fifth-order Kdv equation by decomposition method. Appl. Math. Comput., 144, 353-363.
  • [4] El-Sayed, S.M., & Kaya, D. (2004). An application of the ADM to seven order Sawada Kotara equations. Appl. Math. Comput., 157, 93-101.
  • [5] Shen, Jie, & Tang, Tao (2006). Spectral and High-Order Methods with Applications. Beijing: Science Press.
  • [6] Monterde, J., & Ugail, H. (2006). A general 4th-order PDE method to generate Bezier surfaces from the boundary. Comput. Aided Geom. Design, 23, 208-225.
  • [7] Patil, P.G., & Swamy, Y.S. (2008). An eficient model for vibration control by piezoelectric smart structure using finite element method. Eur. J. Comput. Sci. Netw. Secu., 8, 258-264.
  • [8] Respondek, J.S. (2011). Numerical recipes for the high efficient inverse of the confluent Vandermonde matrices. Appl. Math. Comput., 218, 2044-2054.
  • [9] Respondek, J.S. (2013). Recursive numerical recipes for the high efficient inversion of the confluent Vandermonde matrices. Appl. Math. Comput., 225, 718-730.
  • [10] Li, H., & Zhao, D. (2014). An extension of the Golden-Thompson theorem. J. Inequal. Appl.
  • [11] Li, H.Y., Gong, Z.G., & Zhao, D. (2014). Least squares solutions of the matrix equation AXB+CYD=E with the least norm for symmetric arrowhead matrices. Appl. Math. Comput., 226, 719-724.
  • [12] Wang, Chaojie, Li, Hongyi, & Zhao, Di (2015). An explicit formula for the inverse of a pentadiagonal Toeplitz matrix. Journal of Computational and Applied Mathematics, 278, 12-18.
  • [13] Hadj, A., & Elouafi, M. (2008). A fast numerical algorithm for the inverse of a tridiagonal and pentadiagonal matrix. Appl. Math. Comput., 202, 441-445.
  • [14] Hadj, D.A., & Elouafi, M. (2008). The characteristic polynomial, eigenvectors and determinant of a pentadiagonal matrix. Appl. Math. Comput., 198(2), 634-642.
  • [15] Verde-Star, L. (2015). Elementary triangular matrices and inverses of k-Hessenberg and triangular matrices. Spec. Matrices, 3, 250256.
  • [16] Slowik, R. (2018). Inverses and determinants of Toeplitz-Hessenberg matrices. Taiwanese Journal of Mathematics, 22, 4, 901-908
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9c77c71a-864f-481c-a47e-839b290bda51
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