Numerical Solutions of Nonlinear Biochemical Model Using a Hybrid Numerical- Analytical Technique
In this paper, a hybrid numerical-analytical technique resulting from the combination of the differential transformation method and the Pade approximation technique; hereby referred to as differential transformation-Pade approximation technique (DTPAT) is introduced and applied for numerical solutions to the nonlinear biochemical reaction model. The obtained numerical results via the DTPAT are...
Published at Numerical Solutions of Nonlinear Biochemical Model Using a Hybrid Numerical- Analytical Technique
Volume 9
Issue no 8
Pages 403-416
Published in 2015
S. O. Edeki , E. A. Owoloko , A. S. Osheku , A. A. Opanuga , H. I. Okagbue and G. O. Akinlabi
Okagbue Hilary Izuchukwu » Hilary Izuchukwu Okagbue Obtained his B.Tech, M.Sc and Ph.D. degrees in Industrial Mathematics and Statistics from the Federal University of Technology, Owerri, University of Lagos, Covenant University in 2007, 2010 and 2019 respectively. His research interests include Data Analysis, Mathematical Statistics, Mathematical Cryptography and analysis of patterns in number theory. view full profile