
Hayk Nersisyan joined CSE as an adjunct lecturer in 2014. In 2015 Hayk Nersisyan was appointed as the Program Chair of BS in Computer Science program. Nersisyan holds a PhD in Mathematics from University of Cergy-Pontoise, France and spent one and a half years as a postdoctoral fellow in Basque Center for Applied Mathematics, Spain. He has research interests in: Controllability and stabilization of PDEs, Equations of fluid mechanics, optimization of water wave equations, and machine learning.
Higher Education:
2011, PhD in Mathematics
University of Cergy Pontoise, France
2007, Master in Mathematics,
Yerevan State University
2005, Bachelor of Mathematics,
Yerevan State University
Courses taught:
- Calculus 1
- Calculus 2
- Discrete Mathematics
- Business Math
- Real Analysis
- Ordinary Differential Equation
- Single Variable Calculus
- Multi Variable Calculus
Publications:
- Nersisyan, D. Dutykh and E. Zuazua, Generation of two-dimensional water waves by moving bottom disturbances, IMA Journal of Applied Mathematics, 2014.
- Nersesyan and H. Nersisyan, Global exact controllability in infinite time of Schrodinger equation: Multidimensional case
- Nersisyan, Stabilization of the 2D incompressible Euler system in an infinite strip, to appear in Annales de l'Institut Henri Poincare / Analyse non lineaire.
- Nersesyan and H. Nersisyan, Global exact controllability in infinite time of Schrodinger equation, J. Math. Pures et Appl., 97(4):295-317, 2012.
- Nersisyan, Controllability of the 3D compressible Euler system, Communications in Partial Differential Equations, 36(9) 1544 -1564, 2011.
- Nersisyan, Controllability of 3D incompressible Euler equations by a finite-dimensional external force, ESAIM Control Optim. Calc. Var., 16(3):677-694, 2010.
- H. Nersisyan, M. Poghosyan, D. Piliposyan, R. Ghulghazaryan Application of the Obstacle Problem to Pressure Calculation for CMP Modeling TPCM 2019 conference paper, 2019
- H. Nersisyan, M. Poghosyan, D. Piliposyan, R. Ghulghazaryan Pressure calculation using obstacle problem for CMP modeling Journal of Physics: Conference Series, 2019
Research database IDs:
Google Scholar: https://t.ly/y6Wn
Office location: 320W, PAB