<--- Back to Details
First PageDocument Content
Numerical analysis / Fluid dynamics / Aerodynamics / Navier–Stokes equations / FEniCS Project / Viscosity / Partial differential equation / Discretization / Stokes flow / Calculus / Mathematical analysis / Mathematics
Date: 2013-01-15 22:47:16
Numerical analysis
Fluid dynamics
Aerodynamics
Navier–Stokes equations
FEniCS Project
Viscosity
Partial differential equation
Discretization
Stokes flow
Calculus
Mathematical analysis
Mathematics

FEniCS Framework in geoscientific applications

Add to Reading List

Source URL: www.mssanz.org.au

Download Document from Source Website

File Size: 497,92 KB

Share Document on Facebook

Similar Documents

MathQuest: Differential Equations Introduction to Partial Differential Equations 1. Which of the following functions satisfies the equation x ∂f + y ∂f = f? ∂x

DocID: 1vb7j - View Document

Reinforcement Learning with Function-Valued Action Spaces for Partial Differential Equation Control Yangchen Pan 1 2 Amir-massoud Farahmand 3 2 Martha White 1 Saleh Nabi 2 Piyush Grover 2 Daniel Nikovski 2

DocID: 1uYik - View Document

Deep Reinforcement Learning for Partial Differential Equation Control Amir-massoud Farahmand, Saleh Nabi, Daniel N. Nikovski Abstract— This paper develops a data-driven method for control of partial differential equati

DocID: 1uLR0 - View Document

MITSUBISHI ELECTRIC RESEARCH LABORATORIES http://www.merl.com Deep Reinforcement Learning for Partial Differential Equation Control Farahmand, A.-M.; Nabi, S.; Nikovski, D.N.

DocID: 1untp - View Document

Reinforcement Learning with Function-Valued Action Spaces for Partial Differential Equation Control Yangchen Pan 1 2 Amir-massoud Farahmand 3 2 Martha White 1 Saleh Nabi 2 Piyush Grover 2 Daniel Nikovski 2

DocID: 1ujg3 - View Document