Subject: NA Digest, V. 16, # 19 NA Digest Monday, May 09, 2016 Volume 16 : Issue 19 Today's Editor: Daniel M. Dunlavy Sandia National Labs [log in to unmask] Today's Topics: Strang and Moler Video Course on Differential Equations Chebfun v5.4.0 Released Finite element modeling using FEniCS, USA, Jun 2016 Moving Mesh Methods, UK, Jun 2016 Distance Geometry: Theory and Applications, USA, Jul 2016 SIAM Annual Meeting (AN16), USA, Jul 2016 PhD Position, Hamburg Univ of Technology (TUHH) PhD Positions, Norwegian Univ of Science and Technology Contents, J Numer Anal Approx Theory, 44 (2) Contents, Journal of Scientific Computing, 67 (3) Subscribe, unsubscribe, change address, or for na-digest archives: http://www.netlib.org/na-digest-html/faq.html Submissions for NA Digest: http://icl.cs.utk.edu/na-digest/ ------------------------------------------------------- From: Cleve Moler [log in to unmask] Date: May 06, 2016 Subject: Strang and Moler Video Course on Differential Equations Gil Strang's videos for 18.06, the MIT course on Linear Algebra helped launch the MOOC revolution in higher education. Now he has made a MOOC-style video course about differential equations based on his new book, "Differential Equations and Linear Algebra", http://math.mit.edu/~gs/dela. There are 55 videos, averaging 15 minutes each. Here are the chapters. - Introduction - First Order Equations - Second Order Equations - Graphical and Numerical Methods - Vector Spaces and Subspaces - Eigenvalues and Eigenvectors - Applied Mathematics and ATA - Fourier and Laplace Transforms I have added a dozen videos, also averaging 15 minutes, about "Solving ODEs in MATLAB". Here is the link to the home page for the project at the MathWorks. http://www.mathworks.com/academia/courseware/learn-differential-equations.html Here is the link on MIT OpenCoureWare. http://ocw.mit.edu/resources/res-18-009-learn-differential-equations-up-close-with- gilbert-strang-and-cleve-moler-fall-2015/ See the MIT site for links on YouTube, iTunes and Internet Archive. ------------------------------------------------------- From: Anthony Austin [log in to unmask] Date: May 07, 2016 Subject: Chebfun v5.4.0 Released The Chebfun team is pleased to announce the release of Chebfun v5.4.0. This version comes with two major new features: - Spherefun for computing with functions on the unit sphere. (Written by Alex Townsend, Heather Wilber, and Grady Wright.) - New SPIN/SPIN2 codes for solving stiff time-dependent PDEs in 1D and 2D using exponential integrators. (Written by Hadrien Montanelli.) For further information, see the release notes at http://www.chebfun.org. In the coming weeks, we expect to release Chebfun3 for computing with functions in 3D. ------------------------------------------------------- From: Ridgway Scott [log in to unmask] Date: May 06, 2016 Subject: Finite element modeling using FEniCS, USA, Jun 2016 Announcing a course Solving PDEs with the FEniCS Project software 20-24 June 2016, University of Chicago Lecturers: L. Ridgway Scott (Chicago), Patrick E. Farrell (Oxford) In this course, students will learn the basic concepts of modeling physical phenomena using partial differential equations, and how to easily implement fast finite element solvers for these equations with the software provided by the FEniCS Project. The course is aimed at those wanting to improve their skills in modeling using PDEs, and it is ideal for industrial engineers and advanced undergraduate and graduate students. There are reduced registration fees for academics and students attending this course. For more information, go to cminit.com ------------------------------------------------------- From: Andrew McRae [log in to unmask] Date: May 05, 2016 Subject: Moving Mesh Methods, UK, Jun 2016 We are holding a workshop at the University of Bath, from 13-16 June, on moving mesh methods for PDEs and related problems. Confirmed plenary speakers include Jörn Behrens (Hamburg), Brittany Froese (NJIT), Ron Haynes (Memorial) and Weizhang Huang (Kansas). If you are interested in attending, please contact us directly. There is no registration fee, but we ask that you arrange and fund your own travel and accommodation. We hope to partially or fully reimburse students and early-career researchers, but cannot provide any guarantees at this stage. More details can be found at https://sites.google.com/site/movingmeshmethodsworkshop/ ------------------------------------------------------- From: Leo Liberti [log in to unmask] Date: May 07, 2016 Subject: Distance Geometry: Theory and Applications, USA, Jul 2016 DIMACS Workshop on Distance Geometry: Theory and Applications 26-29 July 2016 at DIMACS, Rutgers University, NJ, USA http://dimacs.rutgers.edu/Workshops/Distance/ Distance Geometry (DG) is a field of geometry which focuses on defining and working with geometrical objects using distances between points rather than the points themselves. From classical results such as Heron's theorem, Euler's conjecture on the rigidity of polyhedra, Maxwell's forces diagrams, and the link to positive semidefinite matrices, DG has seen a veritable "engineering renaissance" in the XX century. DG is used in architecture (rigidity of structures), spatial conformation of molecules from inter-atomic distances, localization of mobile sensors in communication networks, control of unmanned underwater vehicles, control of robotic arms, solution of problems in spatial logic, and more. Invited speakers: Amir Ali Ahmadi (Princeton Univ.); Abdo Alfakih (Univ. Windsor, Canada); Simon Billinge (Columbia Univ.); Bob Connelly (Cornell Univ.); Marcia Fampa (Federal Univ. Rio de Janeiro, Brazil); Hamza Fawzi (MIT); Douglas Goncalves (Federal Univ. Santa Catalina, Brazil); Steven Gortler (Harvard Univ.); Georgina Hall (Princeton Univ.); Bill Jackson (Queen Mary, Univ. of London, UK); Tibor Jordan (Eotvos Lorand Univ., Budapest, Hungary); Bahman Kalantari (Rutgers Univ.); Yuehaw Khoo (Princeton Univ.); Nathan Krislock (Northern Illnois Univ.); Carlile Lavor (Univ. of Campinas, Brazil); Jon Lee (Univ. of Michigan); Theres Malliavin (CNRS &Institut Pasteur, Paris, France); Onur Ozyesil (Princeton Univ.); Pablo Parrilo (MIT); Frank Permenter (MIT); Amit Singer (Princeton Univ.); Meera Sitharam (Univ. of Florida at Gainesville); Anthony Man-Cho So (Chinese Univ. of Hong Kong); Ileana Streinu (Smith College); Jayme Swarczfiter (Federal Univ. of Rio de Janeiro, Brazil); Shin-Ichi Tanigawa (Kyoto Univ., Japan); Antonios Varvitsiotis (NTU, Singapore); Martin Vetterli (EPFL, Switzerland); Henry Wolkowicz (Univ. Waterloo, Canada) We are currently calling for posters. Please write to Leo Liberti if you're interested in presenting a poster. A special issue of Discrete Applied Mathematics, dedicated to the topic of this workshop, will be guest edited by the co-chairs. ------------------------------------------------------- From: Adrianne Ali [log in to unmask] Date: May 02, 2016 Subject: SIAM Annual Meeting (AN16), USA, Jul 2016 Conference Name: 2016 SIAM Annual Meeting (AN16) The Westin Boston Waterfront, Boston, Massachusetts, USA July 11-15, 2016 Invited Speakers: Tanya Y. Berger-Wolf, University of Illinois at Chicago; Freddy Bouchet, ENS de Lyon and CNRS; Lia Bronsard, McMaster University; Vittoria Colizza, Inserm, Paris; Cynthia Dwork, Microsoft Research; Mark Embree, Virginia Tech; Gary Froyland, University of New South Wales; Nigel Goldenfeld, University of Illinois at Urbana-Champaign; Bryan Grenfell, Princeton University; Yann LeCun, New York University; Pablo A. Parrilo, Massachusetts Institute of Technology; Matthew Salganik, Princeton University; Karen Saxe, Macalester College; Victoria Stodden, University of Illinois at Urbana-Champaign; Bernd Sturmfels, University of California Berkeley; Marc Teboulle, Tel-Aviv University; Stefan Wild, Argonne National Laboratory Registration and the conference program are now posted at http://www.siam.org/meetings/an16/ PRE-REGISTRATION DEADLINE: June 13, 2016 HOTEL RESERVATION DEADLINE: June 13, 2016 Twitter hashtag: #SIAMAN16 For additional information, contact the SIAM Conference Department at [log in to unmask] ------------------------------------------------------- From: Sabine Le Borne [log in to unmask] Date: May 03, 2016 Subject: PhD Position, Hamburg Univ of Technology (TUHH) Applications are invited for a PhD position (four years) in the field of Numerical PDEs/Numerical Linear Algebra. The position includes teaching duties in the mathematics education of engineering and mathematics students. Applicants must be able to teach in German. Please see https://intranet.tuhh.de/aktuell/stellen/stelle.html?kenn_nr=D-16-74&intern=1 for additional information. ------------------------------------------------------- From: Ulrik Skre Fjordholm [log in to unmask] Date: May 04, 2016 Subject: PhD Positions, Norwegian Univ of Science and Technology As part of the research project Waves and Nonlinear Phenomena (WaNP) we announce two positions as PhD candidates available from August 1, 2016. The project is funded by the "Toppforsk" program of the Research Council of Norway. The main goal of WaNP (https://wiki.math.ntnu.no/wanp) is basic research in nonlinear and nonlocal partial differential equations. More specifically, the aim is to analyze the interplay of singularities and nonlocal effects in a class of carefully selected wave equations. As singularities appear, our tools to understand their behavior break down; and as nonlocal effects come into play, the study of essentially local singularities requires a global understanding of the problem. As part of our program we shall furthermore study both deterministic equations and equations with uncertainties. The research team involved in the current project comprises 6 faculty members and approximately 10 PhD candidates and postdoctoral fellows. Qualifications: The applicants should have a MSc-degree in mathematics with special focus in mathematical analysis or partial differential equations, or comparable competence. Candidates completing their MSc-degree in the spring 2016 are encouraged to apply. Applications are to be submitted electronically through www.jobbnorge.no. For further information, see https://www.jobbnorge.no/ledige- stillinger/stilling/125388/2-phd-positions-in-mathematics, or contact Professor Helge Holden by email . Deadline: May 31, 2016. ------------------------------------------------------- From: JNAAT [log in to unmask] Date: May 07, 2016 Subject: Contents, J Numer Anal Approx Theory, 44 (2) G.A. Anastassiou, I.K. Argyros: Semilocal convegence of Newton-like methods under general conditions with applications in fractional calculus D. Apetrei, O. Nevanlinna: Multicentric calculus and the Riesz projection I.K. Argyros, H. Ren: A simplified proof of the Kantorovich theorem for solving equations using telescopic series I. Cherevko, A. Dorosh: Existence and approximation of a solution of boundary value problems for delay integro-differential equations M. Heilmann: Commutativity and Spectral Properties of Genuine Baskakov-Durrmeyer Type Operators and their k-th order Kantorovich Modification X.Z. Krasniqi: Further results on L1-convergence of some modified complex trigonometric sums ------------------------------------------------------- From: Chi-Wang Shu [log in to unmask] Date: May 08, 2016 Subject: Contents, Journal of Scientific Computing, 67 (3) Journal of Scientific Computing http://www.springeronline.com/journal/10915 Volume 67, Number 3, June 2016 A Fast Sweeping Method for Eikonal Equations on Implicit Surfaces, Tony Wong and Shingyu Leung, pp.837-859. Two-Level Space-Time Domain Decomposition Methods for Three-Dimensional Unsteady Inverse Source Problems, Xiaomao Deng, Xiao-Chuan Cai and Jun Zou, pp.860-882. Babich's Expansion and High-Order Eulerian Asymptotics for Point-Source Helmholtz Equations, Jianliang Qian, Lijun Yuan, Yuan Liu, Songting Luo and Robert Burridge, pp.883-908. An Immersed Boundary Method for a Contractile Elastic Ring in a Three-Dimensional Newtonian Fluid, Seunggyu Lee, Darae Jeong, Wanho Lee and Junseok Kim, pp.909-925. Landmark-Matching Transformation with Large Deformation Via n-dimensional Quasi-conformal Maps, Yin Tat Lee, Ka Chun Lam and Lok Ming Lui, pp.926-954. Stochastic C-Stability and B-Consistency of Explicit and Implicit Euler-Type Schemes, Wolf-Jurgen Beyn, Elena Isaak and Raphael Kruse, pp.955-987. Numerical Study of SUPG and LPS Methods Combined with Higher Order Variational Time Discretization Schemes Applied to Time-Dependent Linear, Convection-Diffusion-Reaction Equations Naveed Ahmed and Gunar Matthies, pp.988-1018. Construction of Additive Semi-Implicit Runge–Kutta Methods with Low-Storage Requirements, Inmaculada Higueras and Teo Roldan, pp.1019-1042. Fast High-Order Compact Exponential Time Differencing Runge-Kutta Methods for Second-Order Semilinear Parabolic Equations, Liyong Zhu, Lili Ju and Weidong Zhao, pp.1043-1065. Parametrized Positivity Preserving Flux Limiters for the High Order Finite Difference WENO Scheme Solving Compressible Euler Equations, Tao Xiong, Jing-Mei Qiu and Zhengfu Xu, pp.1066-1088. Preconditioning for Radial Basis Function Partition of Unity Methods, Alfa Heryudono, Elisabeth Larsson, Alison Ramage and Lina von Sydow, pp.1089-1109. Legendre Spectral Collocation Methods for Volterra Delay-Integro-Differential Equations, Jingjun Zhao, Yang Cao and Yang Xu, pp.1110-1133. GePUP: Generic Projection and Unconstrained PPE for Fourth-Order Solutions of the Incompressible Navier-Stokes Equations with No-Slip Boundary Conditions, Qinghai Zhang, pp.1134-1180. Guaranteed Lower Bounds for Eigenvalues of Elliptic Operators, Jun Hu, Yunqing Huang and Rui Ma, pp.1181-1197. A Well-Balanced Stochastic Galerkin Method for Scalar Hyperbolic Balance Laws with Random Inputs, Shi Jin, Dongbin Xiu and Xueyu Zhu, pp.1198-1218. On the Accuracy of WENO and CWENO Reconstructions of Third Order on Nonuniform Meshes, I. Cravero and M. Semplice, pp.1219-1246. A Spectral Method for Fourth-Order Mixed Inhomogeneous Boundary Value Problem in Three Dimensions, Tian-jun Wang, pp.1247-1271. On the Connections Between Discontinuous Galerkin and Flux Reconstruction Schemes: Extension to Curvilinear Meshes, G. Mengaldo, D. De Grazia, P.E. Vincent and S.J. Sherwin, pp.1272-1292. ------------------------------------------------------- End of Digest **************************