Observing system simulation experiments to assess the potential impact of CubeSats and other small satellite constellations on numerical weather prediction (Conference Presentation)

Abstract Forecast observing system simulation experiments (OSSEs) are conducted to assess the potential impact of geostationary microwave (GeoMW) sounder observations on numerical weather prediction forecasts. A regional OSSE is conducted using a tropical cyclone (TC) case that is very similar to hurricane Harvey (2017), as hurricanes are among the most devastating of weather-related natural disasters, and hurricane intensity continues to pose a significant challenge for numerical weather prediction. A global OSSE is conducted to assess the potential impact of a single GeoMW sounder centered over the continental United States versus two sounders positioned at the current locations of the National Oceanic and Atmospheric Administration Geostationary Operational Environmental Satellites (GOES) East and West. It is found that assimilation of GeoMW soundings result in better characterization of the TC environment, especially before and during intensification, which leads to significant improvements in forecasts of TC track and intensity. TC vertical structure (warm core thermal perturbation and horizontal wind distribution) is also substantially improved, as are the surface wind and precipitation extremes. In the global OSSE, assimilation of GeoMW soundings leads to slight improvement globally and significant improvement regionally, with regional impact equal to or greater than nearly all other observation types.

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Observing System Simulation Experiments to Assess the Potential Impact of New Observing Systems on Hurricane Forecasting

Marine Technology Society Journal ◽

10.4031/mtsj.49.6.3 ◽

2015 ◽

Vol 49 (6) ◽

pp. 140-148 ◽

Cited By ~ 19

Author(s):

Robert Atlas ◽

Lisa Bucci ◽

Bachir Annane ◽

Ross Hoffman ◽

Shirley Murillo

Keyword(s):

System Simulation ◽

Weather Prediction ◽

Simulation Experiments ◽

Nasa Goddard Space ◽

Trade Offs ◽

Goddard Space Flight Center ◽

Hurricane Track ◽

Potential Impact ◽

Hurricane Forecasting ◽

Observing Systems

AbstractObserving System Simulation Experiments (OSSEs) are an important tool for evaluating the potential impact of new or proposed observing systems, as well as for evaluating trade-offs in observing system design, and in developing and assessing improved methodology for assimilating new observations. Extensive OSSEs have been conducted at the National Aeronautical and Space Administration (NASA) Goddard Space Flight Center (GSFC) and the National Oceanic and Atmospheric Administration (NOAA) Atlantic Oceanographic and Meteorological Laboratory (AOML) over the last three decades. These OSSEs determined correctly the quantitative potential for several proposed satellite observing systems to improve weather analysis and prediction prior to their launch; evaluated trade-offs in orbits, coverage, and accuracy for space-based wind lidars; and were used in the development of the methodology that led to the first beneficial impacts of satellite surface winds on numerical weather prediction. This paper summarizes early applications of global OSSEs to hurricane track forecasting and new experiments using both global and regional models. These latter experiments are aimed at assessing potential impact on hurricane track and intensity prediction over the oceans and at landfall.

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Observing System Simulation Experiments (OSSEs) to Evaluate the Potential Impact of an Optical Autocovariance Wind Lidar (OAWL) on Numerical Weather Prediction

Journal of Atmospheric and Oceanic Technology ◽

10.1175/jtech-d-15-0038.1 ◽

2015 ◽

Vol 32 (9) ◽

pp. 1593-1613 ◽

Cited By ~ 30

Author(s):

Robert Atlas ◽

Ross N. Hoffman ◽

Zaizhong Ma ◽

G. David Emmitt ◽

Sidney A. Wood ◽

...

Keyword(s):

Data Assimilation ◽

Sampling Error ◽

System Simulation ◽

Weather Prediction ◽

Simulation Experiments ◽

Wind Lidar ◽

Potential Impact ◽

The Impact ◽

Data Assimilation System ◽

Assimilation System

AbstractThe potential impact of Doppler wind lidar (DWL) observations from a proposed optical autocovariance wind lidar (OAWL) instrument is quantified in observing system simulation experiments (OSSEs). The OAWL design would provide profiles of useful wind vectors along a ground track to the left of the International Space Station (ISS), which is in a 51.6° inclination low-Earth orbit (LEO). These observations are simulated realistically, accounting for cloud and aerosol distributions inferred from the OSSE nature runs (NRs), and measurement and sampling error sources. The impact of the simulated observations is determined in both global and regional OSSE frameworks. The global OSSE uses the ECMWF T511 NR and the NCEP operational Global Data Assimilation System at T382 resolution. The regional OSSE uses an embedded hurricane NR and the NCEP operational HWRF data assimilation system with outer and inner domains of 9- and 3-km resolution, respectively.The global OSSE results show improved analyses and forecasts of tropical winds and extratropical geopotential heights. The tropical wind RMSEs are significantly reduced in the analyses and in short-term forecasts. The tropical wind improvement decays as the forecasts lengthen. The regional OSSEs are limited but show some improvements in hurricane track and intensity forecasts.

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