<--- Back to Details
First PageDocument Content
Ordinary differential equations / Complex analysis / Differential equations / Partial differential equations / Scattering theory / Riemann–Hilbert problem / Isomonodromic deformation / Method of steepest descent / Painlevé transcendents / Mathematical analysis / Mathematics / Calculus
Date: 2003-11-07 14:06:32
Ordinary differential equations
Complex analysis
Differential equations
Partial differential equations
Scattering theory
Riemann–Hilbert problem
Isomonodromic deformation
Method of steepest descent
Painlevé transcendents
Mathematical analysis
Mathematics
Calculus

Add to Reading List

Source URL: www.ams.org

Download Document from Source Website

File Size: 169,56 KB

Share Document on Facebook

Similar Documents

Algebra / Abstract algebra / Algebraic geometry / Geometry / Moduli space / Divisor / Torsor / Sheaf / Algebraic variety

MODULI OF STOKES TORSORS AND SINGULARITIES OF DIFFERENTIAL EQUATIONS by Jean-Baptiste Teyssier Abstract. — Let M be a meromorphic connection with poles along a smooth divisor

DocID: 1xU9F - View Document

Mathematics / Differential equations / Calculus / Abstraction / Partial differential equation / Ordinary differential equation / Equation / Artificial neural network / Linear differential equation / Numerical methods for ordinary differential equations

Towards Solving Differential Equations through Neural Programming Forough Arabshahi 1 Sameer Singh 1 Animashree Anandkumar 2 1. Introduction Differential equations are used to model numerous phenomena such as heat, elec

DocID: 1xU7Z - View Document

Modeling and Simulation of Differential Equations in Scicos

DocID: 1vqdY - View Document

C. R. Acad. Sci. Paris, Ser. I–162 http://france.elsevier.com/direct/CRASS1/ Partial Differential Equations Sharp decay rates for the fastest conservative diffusions

DocID: 1voVh - View Document

Stratified order one differential equations in positive characteristic

DocID: 1vlUn - View Document