Shahjalal University of Science and Technology

Faculty Profile

Dr Mohammed Ashaque Meah

Professor

Contact Information

Office Address: Professor Institute of Shahjalal University of Science and Technology, Sylhet-3114, Bangladesh
Phone: +8801748928131
Email: mam-mat@sust.edu

Biography

Dr Mohammed Ashaque Meah is a professor in the department of Mathematics at Shahjalal University of Science and Technology (SUST) in Sylhet, Bangladesh. He obtained his B.Sc. and M.Sc. in Mathematics from the Department of Mathematics, SUST. He received his PhD from the school of Mathematical Sciences at Universiti Sains Malaysia, Malaysia. His PhD dissertation was Numerical Modeling of Tsunami and Storm Surge in the Indian Ocean. His current research interest includes Numerical Modeling of Long Wave Phenomena including Tsunami and Storm Surge. Dr. Meah began his academic career as a lecturer in Mathematics, Ahsanullah University of Science and Technology, Dhaka, Bangladesh in 1998. He joined as a lecturer in the Department of Mathematics, SUST, Bangladesh, in 1999 and promoted to professor in 2013. He also worked as guest faculty in Army Institute of Business Administration (AIBA), Jalalabad Cantonment, Sylhet and in the Department of Business Administration, Leading University, Sylhet. He has 30 scientific articles published in prestigious international journals and numerous national and international conferences. He guided 7 MS/PhD research students and numerous undergrad students in the area of mathematics. He is a team member of the research group Hydrodynamic Modeling in the department of Mathematics, SUST.

Education

PhD (Mathematics), 2009 Universiti Sains Malaysia (USM), Malaysia.
MSc (1st class 1st, Mathematics), 1996, SUST, Sylhet, Bangladesh.
BSc (Hons., 1st class 1st ), (Mathematics), 1995, SUST, Sylhet, Bangladesh.

Research Interests

Numerical Analysis
Numerical Modeling of Long Wave Phenomena including Tsunami and Storm Surge

Active Research Project

Principal Investigator (2022 – 2023). Simulation of the Extent of Inland Inundation Due to Far Field Tsunami from an Extended Domain. Research Centre, Shahjalal University of Science & Technology, Sylhet, Bangladesh.

Previous Research Project

Principal Investigator (2016 – 2017). Numerical Modeling of Tsunami Inundation by Using the Method of Lines (MOL) Technique. Research Centre, Shahjalal University of Science & Technology, Sylhet, Bangladesh.
Co-investigator (2013 – 2014). Biodemography of Aging – A Study Based on Sylhet District of Bangladesh. Research Centre, Shahjalal University of Science & Technology, Sylhet, Bangladesh.
SPMT member (2011 – 2013). Postgraduate Research Enhancement Schemes in Mathematics and Statistics under Higher Education Quality Enhancement Project (HEQEP), UGC. Financed by World Bank.

Journal Publish

1. Meah, M.A., Noor, M.S., Arefin M.A. & Karim, M.F. (2017). Tsunami Inundation Modeling in a Boundary Fitted Curvilinear Grid Model Using the Method of Lines Technique. International Journal of Computer, Electrical, Automation, Control and Information Engineering Vol. 11(1), page 137-145
2. Meah, M.A., Karim, M.F., Noor, M.S., Papri, N.N., Hossen, M.K. & Ismoin, M. (2016). Combined Effect of Moving and Open Boundary Conditions in the Simulation of Inland Inundation Due to Far Field Tsunami. International Journal of Computer, Electrical, Automation, Control and Information Engineering. Vol. 10(2), page 219 - 227
3. Karim, M.F., Ismail, A.I.M. & Meah, M.A. (2014). A Boundary Fitted Nested Grid Model for Tsunami Computation along Penang Island in Peninsular Malaysia. International Journal of Mathematical, Computational Science and Engineering. Vol. 8(2), page 21 - 28
4. Mallik M.S.l., Uddin M.A. & Meah, M.A. (2014). Large Eddy Simulation of Turbulent Channel Flow at . IOSR Journal of Mathematics (IOSR-JM). Vol. 10(6), page 41 - 50
5. Meah, M.A., Karim, M.F., Noor, M.S., Hossen, M.K. & Al-Islam, M.E. (2013). The method of lines technique in a boundary-fitted curvilinear grid model to simulate 2004 Indian Ocean Tsunami. International Research Journal of Engineering Science, Technology and Innovation. Vol. 2(3) page 40-50
6. Karim, M.F., Meah, M.A. & Ismail, A.I.M. (2012). A Shallow Water Model for Computing Inland Inundation due to Indonesian Tsunami 2004 using a Moving Coastal Boundary. World Academy of Science, Engineering and Technology. Vol. 72, page 1777 – 1782
7. Meah, M.A., Ismail, A.I.M., Karim, M.F. & Islam, M.S. (2012). Simulation of the Effect of Far Field Tsunami through an Open Boundary Condition in a Boundary – Fitted Curvilinear Grid System. Science of Tsunami Hazards. Vol. 31(1), page 1 – 18
8. Meah, M.A., Karim, M.F., Alam, M.J., Noor, M.S. & Sadhu, P.P. (2012). Numerical Simulation of the Effect of Distant Tsunami along the Coast of Peninsular Malaysia and Southern Thailand through an Open Boundary Condition in a Linear Model. Global Journal of Science Frontier Research: Mathematics and Decision Sciences. Vol. 12(9), page 47 – 62
9. Meah, M.A., Karim, M.F. & Ismail, A.I.M. (2010). A Boundary-Fitted Curvilinear Shallow Water Model for Computing Storm Surge along the Coast of Bangladesh. Far East J. App. Math. Vol. 41(1), page 1 – 20
10. Karim, M.F., Ismail, A.I.M. & Meah, M.A. (2009). Numerical Simulation of Indonesian Tsunami 2004 at Penang Island in Peninsular Malaysia using a Nested Grid Model. International Journal of Mathematical Models and Methods in Applied Sciences. Vol. 3(1), page 1 - 8
11. Karim, M.F., Roy, G.D., Ismail, A.I.M. & Meah, M.A. (2009). Numerical Simulation of Indonesian Tsunami 2004 along Southern Thailand: A Nested Grid Model. International Journal of Mathematical, Physics and Engineering Sciences. Vol. 3(1), page 8 - 14
12. Karim, M.F., Roy, G.D., Ismail, A.I.M. & Meah, M.A. (2008) Tsunami computation along North Sumatra and Penang Island due to a time dependent source associated with the Indonesian Tsunami 2004 using a polar coordinate shallow water model. Far East J. App. Math. Vol. 31(3), page 385 - 407
13. Ismail, A.I.M., Karim, M.F., Roy, G.D. & Meah, M.A. (2007). Numerical Modeling of Tsunami via the Method of Lines. World Academy of Science, Engineering and Technology, Vol. 32, page 177-185
14. Karim, M.F., Roy, G.D., Ismail, A.I.M. & Meah, M.A. (2007). A Shallow Water Model for Computing Tsunami along the West Coast of Peninsular Malaysia and Thailand Using Boundary-Fitted Curvilinear Grids. Science of Tsunami Hazards. Vol. 26(1), page 21 – 41
15. Karim, M.S., Alam, G.M., Hasan, M.K. & Meah, M.A. (2007). On the Development of Efficient Schemes for Integration of Bivariate Polynomial Over a 2-square in Space – An Application to Inviscid Flow Problem. Journal of Mathematics and Mathematical Sciences. Vol. 22, page 81 – 89
16. Karim, M.F., Roy, G.D., Ismail, A.I.M. & Meah, M.A. (2006). A Linear Cartesian Coordinate Shallow Water Model for Tsunami Computation along the West coast of Thailand and Malaysia. International Journal of Ecology & Development. Vol. 4 (S06), page 1 - 14
17. Roy, G.D., Karim, M.F., Ismail, A.I.M. & Meah, M.A. (2006). Formulation of an Open Boundary Condition to Compute the Effect of Far Field Tsunami in the Domain of a Cartesian Coordinates Shallow Water Model. Far East J. App. Math. Vol. 25(3), page 253 – 272
18. Karim, M.S., Alam, G.M. & Meah, M.A. (2003). Explicit Mass Matrix Calculation Scheme Based on Reduction of Co-efficient in Bivariate Polynomial for Higher Order Quadrilateral Elements. Journal of Mathematics and Mathematical Sciences, Vol. 18, page 55 – 76
19. Karim, M.S., Alam, G.M., Hasan, M.K. & Meah, M.A. (2003). Explicit Formula to Evaluate the Bivariate Polynomials by Use of Horner’s Method – An Application to Finite Element Integration Process. Journal of Mathematics and Mathematical Sciences. Vol. 18, page 77 – 92

Awards & Recognition

USM Fellowship, Universiti Sains Malaysia (USM), Malaysia (2008 – 2009, 2007 - 2008)
University Scholarship, SUST, Sylhet, Bangladesh (1994 - 1996)

Conference

1. Meah, M.A. (2012). The Method of Lines Technique in a Boundary-Fitted Curvilinear Grid Model to Simulate 2004 Indian ocean Tsunami. The 22nd Bangladesh Science Conference, Dhaka, Bngladesh.
2. Karim, M.F., Ismail, A.I.M. & Meah, M.A. (2008). A One-way Nested Tsunami Computation Model for the Penang Island in Peninsular Malaysia. Proceedings of the 7th WSEAS International Conference on System Science and Simulation in Engineering (ICOSSSE), page 47 – 54.
3. Karim, M.F., Roy, G.D., Ismail, A.I.M. & Meah, M.A. (2008). Numerical Simulation of Indonesian Tsunami 2004 along Southern Thailand: A Nested Grid Model. Proceedings of World Academy of Science, Engineering and Technology. Vol. 36, page 1103 - 1112.
4. Karim, M.F., Ismail, A.I.M. & Meah, M.A. (2008). Numerical Simulation of Indonesian Tsunami 2004 at Phuket using a Nested Grid Model. The 7th General Assembly of Asian Seismological Commission & The 2008 Fall meeting of Seismological Society of Japan, November 24 – 27, 2008, Tsukuba, Japan.
5. Karim, M.F., Ismail, A.I.M., Meah, M.A., Nak, T.F. & Hie, L.M. (2008). Use of Nested Numerical Scheme in solving Shallow Water Equations to Compute Tsunami along the Coast of Peninsular Malaysia. 16 International Symposium on Mathematical Sciences (SKSM), Universiti Malaysia Terengganu, June 3 - 5, 2008.
6. Ismail, A.I.M., Karim, F., Roy, G.D. & Meah, M.A. (2007). Numerical Modelling of Tsunami via the Method of Lines. Proceedings of World Academy of Science, Engineering and Technology. Vol. 26, page 177 - 185.
7. Meah, M.A., Karim, M.F. & Ismail, A.I.M. (2007). Numerical Modelling of the 2004 Indonesian Tsunami along Peninsular Malaysia and Thailand using Boundary-Fitted Curvilinear Grids. The 3rd IMT-GT Conf. on Math. Stat. and Applications, Universiti Sains Malaysia, December 5 - 6, 2007.
8. Meah, M.A., Roy, G.D., Karim, M.F., & Ismail, A.I.M. (2006). A Shallow water model for computing Tide and Surge along the coast of Bangladesh. The 2nd IMT- GT Regional Conf. on Math. Stat. and Applications, Universiti Sains Malaysia. June 13 - 15, 2006.
9. Alam, J. & Meah, M.A. (2003). Finite Element Simulation of Two-Dimensional Fluid Flow, International Conference on Applied Mathematics and Mathematical Physics (ICAMMP). Shahjalal University of Science and Technology, Bangladesh. January 6 – 9, 2003.

Teaching

Dynamic Meteorology
Hydrodynamics
Mathematical Programming
Mathematical Methods
Numerical Analysis
Differential Equations
Calculus
Complex Analysis
Programming Language
Statics & Dynamics
Geometry

Graduate Supervision

PhD Student 1. M. S. I. Mallik, Reg No: 6062011 (2011-12). Thesis Title: Large Eddy Simulation of Turbulent Channel Flow (as cosupervisor) MS Student 1. M. K. Bhuiyan, Reg No: 2018123003 (2018-19). Thesis Title: Far Field Tsunami Simulation from an Extended Domain. 2. M. S. Arefin, Reg No: 2013123019 (2013-14). Thesis Title: Numerical Simulation of Tsunami Inundation by Using the Method of Lines Technique. 3. N. N. Papri, Reg No: 2011123017 (2011-12). Thesis Title: Investigation of the Effect of Moving Boundary Condition Due to Far Field Tsunami in a Limited Area Model Domain. 4. M. K. Hossen, Reg No: 2009123037 (2009-10). Thesis Title: The method of lines technique in a boundary-fitted curvilinear grid model to simulate 2004 Indian Ocean Tsunami. 5. M. S. Islam, Reg No: 2008123043 (2008-09). Simulation of the Effect of Far Field Tsunami through an Open Boundary Condition in a Boundary – Fitted Curvilinear Grid System. 6. P. P. Sadhu, Reg No: 2007123043 (2007-08). Thesis Title: A study on open boundary condition for distant tsunami computation in a linear model.