Applied Math Research

** Research areas**

• Numerical methods for nonlinear Partial Differential Equations
• Optimal Transportation

**2012 - 2020 **

• (Journal and Conference) No collision transportation maps, Levon Nurbekyan, Alexander Iannantuono, Adam M. Oberman NeurIPS 2019 OTML workshop Journal of Scientific Computing 2020 arxiv
• (Journal) A regularization interpretation of the proximal point method for weakly convex functions Tim Hoheisel, Maxime Laborde, Adam Oberman Journal of Dynamics and Games 2020
• (Conference) Partial differential equation regularization for supervised machine learning, Adam Oberman 75 Years of Mathematicas of Computation Symposium (2020) AMS Contemporary Math arxiv

• (Journal) A Partial Differential Equation Obstacle problem for the Level Set Approach to Visibility Adam Oberman, Tiago Salvador; Journal Sci Computing (2020) arxiv

• (Journal) Improved accuracy of monotone finite difference schemes on point clouds and regular grids Chris Finlay, Adam M. Oberman; SIAM SISC 2019 arxiv
• Approximate Homogenization of fully nonlinear elliptic PDEs Chris Finlay and Adam M. Oberman; Journal of Scientific Computing 2018, arxiv
• Approximate Homogenization of convex nonlinear elliptic PDEs Chris Finlay and Adam M. Oberman; Comm Math Sci 2018, arxiv

2017 and earlier

1. Numerical methods for motion of level sets by affine curvature Adam M. Oberman and Tiago Salvador; IMA Journal of Numerical Analysis, 2017. journal arxiv
2. A partial differential equation for the rank one convex envelope Adam M. Oberman and Yuanlong Ruan; Archive for Rational Mechanics and Analysis arxiv ;
3. A partial differential equation for the uniformly quasiconvex envelope Bilal Abbasi and Adam M. Oberman 2017; IMA Journal of Numerical Analysis journal arxiv
4. Computing the quasiconvex envelope using a nonlocal solver Bilal Abbasi and Adam M. Oberman 2017; Journal of Scientific Computing arxiv
5. Anomaly detection and classification for streaming data using partial differential equations Bilal Abbasi, Jeff Calder and Adam M Oberman, 2017; SIAM journal of Applied Math arxiv
6. Numerical Methods for the two-Hessian elliptic partial differential equation Brittany D. Froese, Adam M. Oberman, Tiago Salvador; IMA Journal of Numerical Analysis, May 2016 journal arxiv
7. A multigrid solver for the three dimensional Monge-Ampère equation Jun Liu, Brittany D. Froese, Adam M. Oberman, Mingqing Xiao; International Journal of Computer Mathematics, November 2016; journal arxiv
8. Adaptive finite difference methods for nonlinear elliptic and parabolic partial differential equations with free boundaries Adam M. Oberman, Ian Zwiers; Journal of Scientific Computing, November 2015 arxiv JSC
9. Filtered schemes for Hamilton-Jacobi equations: a simple construction of convergent accurate difference schemes with Tiago Salvador; Journal of Computational Physics Volume 284, 1 March 2015, pages 367-388; arxiv JCP
10. Numerical methods for matching for teams and Wasserstein barycenters G. Carlier, A. Oberman and É. Oudet; ESAIM: Mathematical Modelling and Numerical Analysis (M2AN) 6 2015 1621-1642; arxiv M2AN
11. Nonlinear elliptic PDEs on graphs with Juan Manfredi and Alex Sviridov; Differential and Integral Equations Volume 28 Numbers 1-2, January/February 2015. DIE Journal version, arxiv
12. Solution of Optimal Transportation Problems Using a Multigrid Linear Programming Approach Adam M. Oberman, Yuanlong Ruan, 2020 Vol 38, pages 933-951, arxiv Journal of Computational Mathematics
13. Numerical Methods for the Fractional Laplacian: A Finite Difference-Quadrature Approach Adam M. Oberman and Yanghong Huang; SIAM Journal of Numerical Analysis 2014 Volume 52, Issue 6, pp. 2599-3180 SINUM ; arxiv
14. (with Jean-David Benamou and Brittany Froese) Numerical solution of the Optimal Transportation Problem using the Monge-Ampère equation Journal of Computational Physics Volume 260, 1 March 2014, Pages 107–126 arxiv ; JCP version
15. (with Brittany Froese) Convergent Filtered Schemes for the Monge–Ampère Partial Differential Equation SIAM Journal on Numerical Analysis, 51(1):423–444, 2013. journal ; arxiv
16. Finite Difference Methods for the infinity Laplace and p-Laplace equations Journal of Computational and Applied Mathematics, Volume 254, 15 December 2013, Pages 65–80 arxiv ; journal
17. A numerical method for variational problems with convexity constraints. SIAM Journal on Scientific Computing Vol. 35, No. 1, A378-A396 arxiv ; SISC
18. (with Brittany Froese) Convergent finite difference solvers for viscosity solutions of the elliptic Monge-Ampère equation in dimensions two and higher SIAM Journal on Numerical Analysis, 49(4):1692–1714, 2012. arxiv ; journal ;
19. (with Rustum Choksi and Yves van Gennip) Anisotropic Total Variation Regularized L1-Approximation and Denoising/Deblurring of 2D Bar Codes Inverse Problems and Imaging, 5(3):591-617, 2011. arxiv.org ; Article
20. (with Brittany Froese) Fast finite difference solvers for singular solutions of the elliptic Monge-Ampère equation J. Comput. Phys. 230(3):818-834, 2011. Article ; arxiv.org
21. (with Stan Osher, Ryo Takei, and Richard Tsai) Numerical methods for anisotropic Mean Curvature flow based on a discrete time variational formulation Comm. Math. Sci. 9(3) :637-662, 2011 Cam Report ; Article
22. (with Luis Silvestre) The Dirichlet Problem for the Convex Envelope, Trans. Amer. Math. Soc 363(11) 5871-5886, 2011. Journal
23. Convergence Rates for Difference Schemes for Polyhedral Nonlinear Parabolic Equations, . J. Comput. Math. Vol. 28, No.4, 2010, 474–488. Journal Version
24. (with Jean-David Benamou and Brittany Froese) Two Numerical Methods for the Elliptic Monge-Ampère Equation, ESAIM: M2AN, Volume 44 (2010), Number 4, pp 737-758 Article ; journal link
25. (with Brittany Froese) Numerical Averaging of Non-Divergence Structure Elliptic Operators, Comm. Math. Sci, Vol. 7 (2009), No. 4, pp 785-804 journal link
26. (with Ryo Takei and Alexander Vladimirsky) Homogenization of Metric Hamilton-Jacobi Equations, SIAM Multiscale Modeling and Simulation, Vol. 8 Number 1 (2009) 269-295 Article ; journal link
27. (with Diogo Gomes) Viscosity Solutions Methods for Converse KAM Theory, ESAIM: M2AN, Vol. 42 (2008) 1047-1064. journal link ;
28. Computing the convex envelope using a nonlinear partial differential equation, Mathematical Models and Methods in Applied Sciences (M3AS), Vol. 18. No 5 (2008) 759-780 journal link
29. Wide stencil finite difference schemes for the elliptic Monge-Ampère equation and functions of the eigenvalues of the Hessian, Discrete and Continuous Dynamical Systems series B (DCDS B) Volume 10, Number 1, July 2008 (221-238) Project Page ; journal link ; Eigenvalues.pdf
30. An explicit solution of the Lipschitz extension problem, Proc. Amer. Math. Soc. 136 (2008) 4329-4338. journal link ;
31. The convex envelope is the solution of a nonlinear obstacle problem, Proc. Amer. Math. Soc. 135 (2007), no. 6, 1689–1694 journal link
32. Convergent Difference Schemes for Nonlinear Elliptic and Parabolic Equations: Hamilton-Jacobi Equations and Free Boundary Problems, SIAM Journal on Numerical Analysis, Vol 44 (2006) No. 2 pp. 879-895. journal link
33. A convergent difference scheme for the infinity Laplacian: construction of absolutely minimizing Lipschitz extensions, Mathematics of Computation, 74 (2005) Number 251, 1217-1230. journal link
34. A convergent monotone difference scheme for motion of level sets by mean curvature, Numerische Mathematik, Volume 99 (2004) Number 2 pages 365-379. journal link ;
35. (with Robert McCann) Exact semigeostrophic flows in an elliptical basin, Nonlinearity, Volume 17 pages 1891-1922 (2004). journal link
36. (with Diogo Gomes) Computing the effective Hamiltonian using a variational approach, SIAM Journal on Control and Optimization, Volume 43 (2004) Number 3 pages 793-812. journal link
37. (with T. Zariphopoulou) Pricing early exercise contracts in incomplete markets, Computational Management Science, Vol 1 Issue 1 December (2003) pages 75-107. journal link
38. (with P. Constantin, A. Kiselev, and L. Ryzhik) Bulk burning rate in passive-reactive diffusion, Archive for Rational Mechanics, 154 (2000), 53-91. journal link

Unpublished

1. Improved Predictive Uncertainty using Corruption-based Calibration Tiago Salvador, Vikram Voleti, Alexander Iannantuono, Adam Oberman arxiv
2. Lischitz regularized deep neural networks generalize and are adversarially robust, Chris Finlay, Jeff Calder, Bilal Abbasi, Adam M. Oberman arxiv
3. Farkas layers: don’t shift the data, fix the geometry, Aram-Alexandre Pooladian, Chris Finlay, Adam M. Oberman arxiv
4. Deterministic Gaussian Averaged Networks, Ryan Campbell, Chris Finlay, Adam M Oberman arxiv
5. Finite difference methods for fractional Laplacians Adam M. Oberman and Yanghong Huang arxiv
6. Approximate Convex Hulls: sketching the convex hull using curvature Robert Graham, Adam M. Oberman arxiv