Dr. Mohammed Sahib Mechee
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Dr. Mohammed Sahib Mechee

Professor
Department of Mathematics, University of Kufa, Iraq

Highest Degree
Ph.D. in Mathematical and Computing Sciences from Ball State University, USA

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Biography

Dr. Mohammed Sahib Mechee is currently working as Lecturer and Researcher at Department of Mathematics, Faculty of Computer Science and Mathematics, University of Kufa. He has completed his Applied Mathematics, and Numerical Analysis at Malaya University, Iraq. His main area of expertise includes Numerical Analysis, Applied Mathematics, Programming, Differential Equations, Applications of Mathematics in Engineering and Physics. The major part of his field research is in Applied Mathematics, Numerical Analysis, especially Numerical Solution of Ordinary or partial differential Equation with Application in Science and Engineering, Operation Research, Linear and non Linear Programming, Mathematical Modelling, Computer graphics, and Matrix Algebra. He has published 14 papers in high impact journals. He has reviewed some papers in different journals like Applied Mathematics Letters journal of Elsevier Publisher. He has published 5 books. He participated in more than 20 international conferences.

Area of Interest:

Mathematics
100%
Numerical Analysis
62%
Applied Mathematics
90%
Differential Equations
75%
Mathematical Modelling
55%

Research Publications in Numbers

Books
5
Chapters
0
Articles
44
Abstracts
24

Selected Publications

  1. Al-Shaher, O.I., M. Mahmoudi and M.S. Mechee, 2023. Numerical method for solving fractional order optimal control problems with free and non-free terminal time. Symmetry, Vol. 15. 10.3390/sym15030624.
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  2. Mechee, M.S., O.I. Al-Shaher and G.A. Al-Juaifri, 2019. Haar wavelet technique for solving fractional differential equations with an application. AIP Conf. Proc., Vol. 2086. 10.1063/1.5095110.
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  3. Mechee, M.S., 2019. Generalized RK integrators for solving class of sixth-order ordinary differential equations. J. Interdiscip. Math., 22: 1457-1461.
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  4. Mechee, M.S., 2019. Derivation of direct explicit integrators of RK type for solving class of seventh-order ordinary differential equations. Karbala Int. J. Mod. Sci., 5: 182-200.
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  5. Mechee, M.S. and J.K. Mshachal, 2019. Derivation of embedded explicit RK type methods for directly solving class of seventh-order ordinary differential equations. J. Interdiscip. Math., 22: 1451-1456.
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  6. Maibed, Z.H. and M.S. Mechee, 2019. A compression study of multistep iterative methods for solving ordinary differential equations. Int. Sci. Surv. J., Vol. 6. .
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  7. Mechee, M.S., G.A. Al-Juaifri and A.K. Joohy, 2017. Modified homotopy perturbation method for solving generalized linear complex differential equations. Appl. Math. Sci., 11: 2527-2540.
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  8. Ali, A.J., Z.M. Hussain, M.S. Mechee and Z.A. Khalaf, 2017. Schoenberg logarithmic image similarity in Prewitt-Gabor-Zernike domain. Am. J. Appl. Sci., 14: 828-842.
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  9. Senu, N., M. Mechee, F. Ismail and Z. Siri, 2014. Embedded explicit Runge-Kutta type methods for directly solving special third order differential equations y’’’ = f (x,y). Appl. Math. Comput., 240: 281-293.
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  10. Mohammed S. Mechee, F. Ismail, Z. Siri, N. Senu 2014. A Third-Order Direct Integrators of Runge-Kutta Type for Special Third-Order Ordinary and Delay Differential Equations Asian J. Applied Sci., 7: 102-116.
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  11. Mechee, M., F. Ismail, Z.M. Hussain and Z. Siri, 2014. Direct numerical methods for solving a class of third-order partial differential equations. Appl. Math. Comput., 247: 663-674.
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  12. Mechee, M., F. Ismail, Z. Siri and N. Senu, 2014. A four-stage sixth-order rkd method for directly solving special third-order ordinary differential equations. Life Sci. J., 11: 399-404.
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  13. Mechee, M., N. Senu, F. Ismail, B. Nikouravan and Z. Siri, 2013. A three-stage fifth-order runge-kutta method for directly solving special third-order differential equation with application to thin film flow problem. Math. Problems Eng., 10.1155/2013/795397.
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  14. Mechee, M., F. Ismail, N. Senu and Z. Siri, 2013. Directly solving special second order delay differential equations using runge-kutta-nystrom method. Math. Problems Eng., 10.1155/2013/830317.
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  15. Alabaichi, A.M., R. Mahmod, M.S. Mechee and F. Ahmad, 2013. Randomness analysis on blowfish block cipher using ECB and CBC Modes. Applied Sci. J., 13: 768-789.
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  16. Mechee, M.S. and N. Senu, 2012. Numerical study of fractional differential equations of lane-emden type by the least square method. Int. J. Differ. Equ. Appl., 11: 157-168.
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  17. Mechee, M.S. and N. Senu, 2012. Numerical study of fractional differential equations of lane-emden type by method of collocation. Appl. Math., 3: 851-856.
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