School of Mathematics, Iran University of Science and Technology, Tehran, Iran
Abstract
The current paper contributes a novel framework for solving a class of linear matrix differential equations. To do so, the operational matrix of the derivative based on the shifted Bernoulli polynomials together with the collocation method are exploited to reduce the main problem to system of linear matrix equations. An error estimation of presented method is provided. Numerical experiments are reported to demonstrate the applicably and efficiency of the propounded technique.
Golbabai, A., & Panjeh Ali Beik, S. (2015). Bernoulli matrix approach for matrix differential models of first-order. Journal of Mathematical Modeling, 3(1), 77-89.
MLA
Ahmad Golbabai; Samaneh Panjeh Ali Beik. "Bernoulli matrix approach for matrix differential models of first-order". Journal of Mathematical Modeling, 3, 1, 2015, 77-89.
HARVARD
Golbabai, A., Panjeh Ali Beik, S. (2015). 'Bernoulli matrix approach for matrix differential models of first-order', Journal of Mathematical Modeling, 3(1), pp. 77-89.
VANCOUVER
Golbabai, A., Panjeh Ali Beik, S. Bernoulli matrix approach for matrix differential models of first-order. Journal of Mathematical Modeling, 2015; 3(1): 77-89.
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