Michael Medvinsky

Vita

• Education

  • Ph.D. in Applied Mathematics, Tel-Aviv University, 2013
  • M.Sc. in Applied Mathematics, Tel-Aviv University, 2007
  • B.A. with Honors, in Computer Science, The Open University of Israel, 2005

• Academic Positions

  • 2021-Present   Lecturer at North-Carolina State University
  • 2016-2021       Research Assistant Professor at North-Carolina State University
  • 2013-2015       Scott Assistant Professor Lecturer at University of Utah

You can find me on Google Scholar , ResearchGate and ORCID

Teaching

Current

Past

NCSU:

MA242 Calculus III
MA341 Applied Differential Equations I
MA141 Calculus I
MA401 Applied Differential Equations II
MA405 Introduction to Linear Algebra
MA302 Numerical Applications to Differential Equations
MA241 Calculus II
Summer academic programs for international students in Math: Matlab

UofU

1311 Accelerated Eng. calculus I
1321 Accelerated Eng. calculus II
5610/6860 Introduction to Numerical Analysis I

Contact Information:

  m m e d v i n   a t   n c s u . e d u  

LIST OF PUBLICATIONS

Patents
1	S. Scherzer, R. Blaier, M. Medvinsky , R. Nachmany, T. Scherzer, Expediting seamless roaming in heterogeneous networking , WO/2008/073438, June 19 (2008).
2	S. Scherzer, R. Blaier, M. Medvinsky , R. Nachmany, T. Scherzer, Masking changes for seamless roaming in heterogeneous networking , WO/2008/073492, June 19 (2008).
3	S. Scherzer, T. Scherzer, R. Blaier, Y. Lifchuk, M. Medvinsky , Providing easy access to radio networks , US 8,000,276 B2.
Articles
1	M. Medvinsky , S. Tsynkov, E. Turkel, Solution of Three-Dimensional Multiple Scattering Problems by the Method of Difference Potentials , Wave Motion, (2021).
2	M. Medvinsky , S. Tsynkov, E. Turkel, Direct implementation of high order BGT artificial boundary conditions , Journal of Computational Physics, Vol. 376, pp. 98–128 (2019).
3	J. Albright, Y. Epshteyn, M. Medvinsky , Q. Xia, High Order Solution to the Elliptic Interface Problems by Difference Potentials Method , Applied Numerical Mathematics, Vol. 111, pp. 64–91 (2017).
6	M. Medvinsky , High order numerical simulation of waves using regular grids and non-conforming interfaces , Ph.D. Dissertation, Tel Aviv University (2013).
7	M. Medvinsky , S. Tsynkov, E. Turkel, High Order Numerical Simulation of the Transmission and Scattering of Waves Using the Method of Difference Potentials , Journal of Computational Physics, Vol. 243, pp. 305–322 (2013).
8	S. Britt, M. Medvinsky , S. Tsynkov, E. Turkel, High Order Numerical Simulation of the Transmission and Scattering of Waves Using the Method of Difference Potentials , in Proceedings of the International Conference “Difference Schemes and Applications” .
9	M. Medvinsky , S. Tsynkov, E. Turkel, The Method of Difference Potentials for the Helmholtz Equation Using Compact High Order Schemes , Journal of Scientific Computing, Vol. 53, No. 1, pp. 150–193 (2012). (See also Erratum)
10	M. Medvinsky , E. Turkel, On surface radiation conditions for an ellipse , Journal of Computational and Applied Mathematics, Vol. 234, No. 6, pp. 1647–1655 (2009).
11	M. Medvinsky , E. Turkel, U. Hetmaniuk, Local absorbing boundary conditions for elliptical shaped boundaries , Journal of Computational Physics, Vol. 227, No. 18, pp. 8254–8267 (2008).
12	M. Medvinsky , Comparison of local absorbing radiation conditions for scattering about elliptical body , M.Sc. Thesis, Tel Aviv University (2007).

Links:

Scattering Absorbing Boundary Conditions Calderon�s potentials My image processing project is still on course site since 2005. Download (hebrew). Compact Finite Difference Schemes Virtual WiFi, Microsoft Reseach Project Passover Faculty resources Delta Proctoring Status Delta Proctoring Report ncsu go link