AER Start
  • About Us
  • Contact
  • Careers
  • Weather Risk Management
    Weather Risk Management FloodScan Weather Risk for Government Weather Risk for Business
  • Government
    Government Air Quality Satellites › Target Recognition National Security Space Climate Weather Modeling and Simulation
  • Industry
    Industry Energy › Investment Aerospace Agriculture Manufacturing Retail & Supply Chain Solutions Space Weather ›
  • Science & Research
    Science & Research Atmosphere › Climate & Weather › Earth › Oceans › Space › IPCC Report's AER Research Citations Algorithm Workbench
  • Clients & Partners
    Clients & Partners U.S. Government Agencies and International Organizations Industry Clients and Partners Universities GSA SeaPort-e
  • News & Events
    News & Events Press Releases In the News Blog Resource Library Author Bios
  • Search
  • Weather Risk Management
    FloodScan Weather Risk for Government Weather Risk for Business
  • Government
    Air Quality Satellites › Target Recognition National Security Space Climate Weather Modeling and Simulation
  • Industry
    Energy › Investment Aerospace Agriculture Manufacturing Retail & Supply Chain Solutions Space Weather ›
  • Science & Research
    Atmosphere › Climate & Weather › Earth › Oceans › Space › IPCC Report's AER Research Citations Algorithm Workbench
  • Clients & Partners
    U.S. Government Agencies and International Organizations Industry Clients and Partners Universities GSA SeaPort-e
  • News & Events
    Press Releases In the News Blog Resource Library Author Bios
  • Search
  • Home>
  • News & Events>
  • Resource Library>
  • Categories>
  • General circulation model

General circulation model

MODELING: The Continual Intercomparison of Radiation Codes (CIRC)

By L. Oreopoulos, Eli J. Mlawer
March 1, 2010

Bulletin of the American Meteorological Society

Filed under: General circulation model, Global climate model, Radiative transfer, Remote sensing

Low-frequency sea level variability estimated from a data-constrained general circulation model

By Sergey Vinogradov, Rui M. Ponte, P. Heimbach, C. Wunsch
December 11, 2006

American Geophysical Union, Fall Meeting 2006

Filed under: Climate modeling, General circulation model, Ocean, Ocean modeling, Sea level

Combining altimetric and all other data with a general circulation model

By P. Heimbach, Rui M. Ponte, C. Evangelinos, G. Forget, M. Mazloff, Sergey Vinogradov, C. Wunsch
May 17, 2006

Radar Altimetry Symposium proceedings, Venice, Italy

Filed under: General circulation model, Global climate model, Ocean, Ocean circulation

Ocean angular momentum and torques in a general circulation model

By Rui M. Ponte, R.D. Rosen
January 1, 1994

Journal of Physical Oceanography

Filed under: Angular momentum , General circulation model, Ocean

Angular momentum and torques in a simulation of the atmosphere's response to the 1982-1983 El Niño

By Rui M. Ponte, R.D. Rosen, G.J. Boer
September 8, 1993

Journal of Climate

Filed under: Angular momentum , Atmosphere, Climate change, General circulation model, Ocean
  • Categories

Home  About Us  Contact Us  Jobs  Privacy Policy  Conditions of Use  Sitemap

© Atmospheric and Environmental Research 2002-2019. All Rights Reserved.

AER is a Verisk business.

VERISK ANALYTICS®

We use cookies on this site to enhance your user experience. By continuing to use this site you are giving us your consent to place cookies on your device.

Continue Give me more information