Atmospheric and Oceanic Science Letters (Mar 2019)

The alternative of CubeSat-based advanced infrared and microwave sounders for high impact weather forecasting

  • Zhenglong LI,
  • Jun LI,
  • Timothy J. SCHMIT,
  • Pei WANG,
  • Agnes LIM,
  • Jinlong LI,
  • Fredrick W. NAGLE,
  • Wenguang BAI,
  • Jason A. OTKIN,
  • Robert ATLAS,
  • Ross N. HOFFMAN,
  • Sid-Ahmed BOUKABARA,
  • Tong ZHU,
  • William J. BLACKWELL,
  • Thomas S. PAGANO

DOI
https://doi.org/10.1080/16742834.2019.1568816
Journal volume & issue
Vol. 12, no. 2
pp. 80 – 90

Abstract

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The advanced infrared (IR) and microwave (MW) sounding systems have been providing atmospheric sounding information critical for nowcasting and improving weather forecasts through data assimilation in numerical weather prediction. In recent years, advanced IR and MW sounder systems are being proposed to be onboard CubeSats that are much more cost efficient than traditional satellite systems. An impact study using a regional Observing System Simulation Experiment on a local severe storm (LSS) was carried out to evaluate the alternative of using advanced MW and IR sounders for high-impact weather forecasting in mitigating the potential data gap of the Advanced Technology Microwave Sounder (ATMS) and the Cross-track Infrared Sounder (CrIS) on the Suomi-NPP (SNPP) or Joint Polar Satellite System (JPSS). It was found that either MicroMAS-2 or the CubeSat Infrared Atmospheric Sounder (CIRAS) on a single CubeSat was able to provide a positive impact on the LSS forecast, and more CubeSats with increased data coverage yielded larger positive impacts. MicroMAS-2 has the potential to mitigate the loss of ATMS, and CIRAS the loss of CrIS, on SNPP or JPSS, especially when multiple CubeSats are launched. There are several approximations and limitations to the present study, but these represent efficiencies appropriate to the principal goal of the study — gauging the relative values of these sensors.

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