[1] Space weather effects on technological systems originate with energy carried from the Sun to the terrestrial environment by the solar wind. In this study, we present results of modeling of solar corona-heliosphere processes to predict solar wind conditions at the L1 Lagrangian point upstream of Earth. In particular we calculate performance metrics for (1) empirical, (2) hybrid empirical/physics-based, and (3) full physics-based coupled corona-heliosphere models over an 8-year period (1995–2002). L1 measurements of the radial solar wind speed are the primary basis for validation of the coronal and heliosphere models studied, though other solar wind parameters are also considered. The models are from the Center for Integrated Space-Weathe...
This is the final version. Available on open access from Oxford University Press via the DOI in this...
Stream interaction regions (SIRs) that corotate with the Sun (corotating interaction regions, or CIR...
The Sun lies at the center of space weather and is the source of its variability. The primary input ...
[1] Space weather effects on technological systems originate with energy carried from the Sun to the...
Space weather effects on technological systems originate with energy carried from the Sun to the ter...
Multiple coronal and heliospheric models have been recently upgraded at the Community Coordinated Mo...
The prediction of the background global solar wind is a necessary part of space weather forecasting....
Predictions of the solar wind at Earth are a central aspect of space weather prediction. The outcome...
Predictions of the physical parameters of the solar wind at Earth are at the core of operational spa...
[1] One of the primary goals of the Center for Integrated Space Weather Modeling (CISM) effort is to...
One of the primary goals of the Center for Integrated Space Weather Modeling (CISM) effort is to ass...
[1] Results from the first Sun-to-Earth coupled numerical model developed at the Center for Integrat...
Accurate predictions of ambient solar wind conditions are a central component of space weather forec...
The near‐Earth space environment is strongly driven by the solar wind and interplanetary magnetic fi...
Advanced space-weather forecasting relies on the ability to accurately predict near-Earth solar wind...
This is the final version. Available on open access from Oxford University Press via the DOI in this...
Stream interaction regions (SIRs) that corotate with the Sun (corotating interaction regions, or CIR...
The Sun lies at the center of space weather and is the source of its variability. The primary input ...
[1] Space weather effects on technological systems originate with energy carried from the Sun to the...
Space weather effects on technological systems originate with energy carried from the Sun to the ter...
Multiple coronal and heliospheric models have been recently upgraded at the Community Coordinated Mo...
The prediction of the background global solar wind is a necessary part of space weather forecasting....
Predictions of the solar wind at Earth are a central aspect of space weather prediction. The outcome...
Predictions of the physical parameters of the solar wind at Earth are at the core of operational spa...
[1] One of the primary goals of the Center for Integrated Space Weather Modeling (CISM) effort is to...
One of the primary goals of the Center for Integrated Space Weather Modeling (CISM) effort is to ass...
[1] Results from the first Sun-to-Earth coupled numerical model developed at the Center for Integrat...
Accurate predictions of ambient solar wind conditions are a central component of space weather forec...
The near‐Earth space environment is strongly driven by the solar wind and interplanetary magnetic fi...
Advanced space-weather forecasting relies on the ability to accurately predict near-Earth solar wind...
This is the final version. Available on open access from Oxford University Press via the DOI in this...
Stream interaction regions (SIRs) that corotate with the Sun (corotating interaction regions, or CIR...
The Sun lies at the center of space weather and is the source of its variability. The primary input ...