GPS Meteorology : Error in the estimation of precipitable water by ground based GPS system in some meso-scale thunderstorms - A case study

Authors

  • PUVIARASAN N
  • YADAV RAMASHRAY
  • GIRI R K
  • SINGH VIRENDRA

DOI:

https://doi.org/10.54302/mausam.v71i2.17

Keywords:

GPS precipitable water, Zenith total delay, Zenith wet delay, Slant wet delay, Thunderstorms

Abstract

Remote sensing by ground based GPS receivers provide continuous and accurate measurement of precipitable water (PW) of an order of 1.5 mm comparable to radiosondes and water vapour radiometers.  In the present work we have examined the amount of PW variation in three thunderstorms accompanied with rain shower that occurred over the GPS station.  In all the three thunderstorms event heavy rain was reported.  However on comparison of observed rainfall with GPS estimated precipitable water (hourly) in real time, it is observed that among the three, in one event the amount of precipitable water (PW) is much less (~20mm) for the same amount of rainfall.  After analysing and taken into account various source of error, we suspect that in a mesoscale thunderstorms or squall lines associated with heavy rainfall, discrepancies arise because the wet mapping functions that used to map the wet delay at any angle to the zenith do not represent the localized atmospheric condition particularly for narrow towering thunder clouds and non-availability of GPS satellites in the zenith direction.  On the other hand for the larger thunder cells the atmosphere is very nearly azimuthally symmetric with respect to GPS receiver, the error due to the wet mapping function is minimal.

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Published

01-04-2020

How to Cite

[1]
P. N, Y. RAMASHRAY, G. R K, and S. VIRENDRA, “GPS Meteorology : Error in the estimation of precipitable water by ground based GPS system in some meso-scale thunderstorms - A case study”, MAUSAM, vol. 71, no. 2, pp. 175–186, Apr. 2020.

Issue

Section

Research Papers