• DocumentCode
    3060321
  • Title

    Methodology to simulate GPM radar observations, from combined radiometer and radar measurements from TRMM and cloud models

  • Author

    Chandrasekar, V. ; Ramanujam, K. Srinivasa ; Minda Le

  • Author_Institution
    Colorado State Univ., Fort Collins, CO, USA
  • fYear
    2013
  • fDate
    21-26 July 2013
  • Firstpage
    2222
  • Lastpage
    2225
  • Abstract
    The Global precipitation mission is conceptually centered on the deployment of a “core” satellite with an active dual-frequency (Ka/Ku band) precipitation radar, and microwave imager capable of sensing the total precipitation within all cloud layers (http://gpm.gsfc.nasa.gov). Compared to the single-frequency TRMM (Tropical Rainfall Measuring Mission) precipitation radar (PR), the dual-frequency precipitation radar (DPR) onboard GPM core satellite is expected to enhance our understanding on microphysics, and provide more accurate retrieval of rainfall and liquid water content. The goal of the present study is to combine the TMI (TRMM´s Microwave Imager), TRMM PR and a mesoscale WRF (Weather Research and Forecast) model to simulate the DPR reflectivity profiles. Prior studies to simulate the DPR profiles were done based on TRMM PR observation using frequency scaling arguments and hydrometeor classification [1]. First, the methodology to retrieve self consistent hydrometeor profiles from a combination of TMI, PR observations as well as WRF model is described. Using the TRMM constrained WRF model profiles, a procedure to simulate DPR observations is described. Attenuation from cloud water and cloud ice is considered. Simulation of cyclone Nargis shows reasonable results using TMI retrieved microphysics. Attenuations from both precipitation and non-precipitation are also compared.
  • Keywords
    atmospheric precipitation; atmospheric techniques; clouds; meteorological radar; radiometers; radiometry; storms; weather forecasting; DPR reflectivity profiles; GPM radar observation simulation; Global precipitation mission; TMI retrieved microphysics; TRMM Microwave Imager; TRMM PR; Tropical Rainfall Measuring Mission; Weather Research and Forecast model; active dual-frequency precipitation radar; cloud ice attenuation; cloud layers; cloud models; cloud water attenuation; combined radiometer measurements; core satellite; cyclone Nargis; frequency scaling arguments; hydrometeor classification; liquid water content; mesoscale WRF; microwave imager; radar measurements; rainfall; self consistent hydrometeor profiles; single-frequency TRMM; Abstracts; Attenuation; Clouds; Cyclones; Radiometry; Sea measurements;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Geoscience and Remote Sensing Symposium (IGARSS), 2013 IEEE International
  • Conference_Location
    Melbourne, VIC
  • ISSN
    2153-6996
  • Print_ISBN
    978-1-4799-1114-1
  • Type

    conf

  • DOI
    10.1109/IGARSS.2013.6723258
  • Filename
    6723258