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A Location-Specific Nowcast and SMS-Based Dissemination System for Thunderstorm and Lightning Warning over Jharkhand, India


Affiliations
1 Meteorological Centre Ranchi, Ranchi, Jharkhand 834 002, India
2 India Meteorological Department, New Delhi 110 003, India
3 Meteorological Centre Jaipur, Jaipur 302 029, India
 

Effective nowcasting for thunderstorms has been a challenge to operational forecasters in Jharkhand, India as lightning strikes-related deaths are significantly high. Extrapolation of radar echoes is the very foundation of nowcasting. Multiple radar mosaic data are able to pick out the size, shape, intensity, speed and direction of movement of individual storms on a continuous basis. This makes it possible to determine the likely location of a moving storm by extrapolation. This article demonstrates a new approach of locationspecific nowcast and SMS (short message service)- based dissemination system for thunderstorm and lightning warning up to 3 h ahead over Jharkhand. There are three components of the system. First, identification of the initial development and tracking of thunder cells by mosaic composite reflectivity data from multiple radars. The future location of thunder cells, and their growth or dissipation in terms of radius is estimated by extrapolation using their past trends. Secondly, based on this forecast information, an SMS is generated by the web-based GIS portal of Jharkhand Space Applications Centre for the forecast location and sent to the concerned state officials and mobile service providers over that region. Finally, the warning SMS is sent to all the active mobile users over that region at that time. The system combining nowcasting and dissemination of warning directly to the likely affected people is expected to be more robust considering its effectiveness in the reduction of human casualty.

Keywords

Dissemination System, Lightning, Nowcast, Short Message Service, Thunderstorm.
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  • Roy Bhowmik, S. K. et al., Processing of Indian Doppler weather radar data for mesoscale applications. Meteorol. Atmos. Phys., 2011, 111(3–4), 133–147.
  • Wilson, J. W., Crook, N. A., Mueller, C. K., Sun, J. and Dixon, M., Nowcasting thunderstorms: a status report. Bull. Am. Meteorol. Soc., 1998, 79, 2079–2099.
  • Battan, L. J., Duration of convective radar cloud units. Bull. Am. Meteorol. Soc., 1953, 34, 227–228.
  • Foote, G. B. and Mohr, C. G., Results of a randomized hail suppression experiment in northeast Colorado. Part VI: Post hoc stratification by storm type and intensity. J. Appl. Meteorol., 1979, 18, 1589–1600.
  • Newton, C. W. and Fankhauser, J. C., On the movements of convective storms, with emphasis on size discrimination in relation to water-budget requirements. J. Appl. Meteorol., 1964, 3, 651–668.
  • Wilson, J. W., Movement and predictability of radar echoes. Technical Memo ERTM-NSSL-28, National Severe Storms Laboratory, 1966, p. 30 (available from the National Information Service, Operations Division, Springfield, VA, USA).
  • Hill, F. F., Whyte, K. W. and Browning, K. A., The contribution of a weather radar network for forecasting frontal precipitation: a case study. Meteorol. Mag., 1977, 106, 68–89.
  • Sen Roy, S., Mohapatra, M., Tyagi, A. and Roy Bhowmik, S. K., A review of nowcasting of convective weather over the Indian region. Mausam, 2019, 70(3), 465–484.
  • Golding, B. W., Nimrod: a system for generating automated very short range forecasts. Meteorol. Appl., 1998, 5, 1–16.
  • Done, J., Davis, C. A. and Weisman, M. L., The next generation of NWP: explicit forecasts of convection using the Weather Research and Forecasting (WRF) model. Atmos. Sci. Lett., 2004, 5, 110–117.
  • Kain, J. S., Weiss, S. J., Levit, J. J., Baldwin, M. E. and Bright, D. R., Examination of convection-allowing configurations of the WRF model for the prediction of severe convective weather: the SPC/NSSL Spring Program. Weather Forecast., 2004, 21, 167– 181.
  • Sun, J. et al., Use of NWP for nowcasting convective precipitation: recent progress and challenges. Bull. Am. Meteorol. Soc., 2013, 95(95), 409–426.
  • Tunis, P. and Borstein, R., Hierarchy of mesoscale flow assumptions and equations. J. Atmosp. Sci., 1996, 53(3), 380–397.
  • Wilson, J. W. et al., Sydney 2000 Forecast Demonstration Project: convective storm nowcasting. Weather Forecast., 2004, 19, 131– 150.
  • Wilson, J. W., Feng, Y. and Chen, M., Nowcasting challenges during the Beijing Olympics: successes, failures, and implications for future nowcasting systems. Weather Forecast., 2010, 25, 1691–1714.
  • Kotal, S. D. and Bhattacharya, S. K., Improvement of wind field forecast for tropical cyclones over the North Indian Ocean. Trop.
  • Cyclone Res. Rev., 2020, 9, 53–66.
  • Kumar, S., Arora, A., Chattopadhyay, R., Hazra, A., Rao, S. and Goswami, B. N., Seminal role of stratiform clouds in large-scale aggregation of tropical rain in boreal summer monsoon intraseasonal oscillations. Climate Dyn., 2017, 48, 999–1015.
  • WMO, Guidelines for nowcasting techniques. World Meteorological Organization, WMO-No. 1198, Geneva, Switzerland, 2017 edition.
  • Brown, B. G. and Brandes, E., An intercomparison of 2D storm motion extrapolation algorithms. Preprints. In 28th Conference on Radar Meteorology, Austin, TX, USA, Amer. Meteor. Soc., 1997, pp. 495–496.

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  • A Location-Specific Nowcast and SMS-Based Dissemination System for Thunderstorm and Lightning Warning over Jharkhand, India

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Authors

S. D. Kotal
Meteorological Centre Ranchi, Ranchi, Jharkhand 834 002, India
Soma Sen Roy
India Meteorological Department, New Delhi 110 003, India
R. S. Sharma
Meteorological Centre Jaipur, Jaipur 302 029, India
M. Mohapatra
India Meteorological Department, New Delhi 110 003, India

Abstract


Effective nowcasting for thunderstorms has been a challenge to operational forecasters in Jharkhand, India as lightning strikes-related deaths are significantly high. Extrapolation of radar echoes is the very foundation of nowcasting. Multiple radar mosaic data are able to pick out the size, shape, intensity, speed and direction of movement of individual storms on a continuous basis. This makes it possible to determine the likely location of a moving storm by extrapolation. This article demonstrates a new approach of locationspecific nowcast and SMS (short message service)- based dissemination system for thunderstorm and lightning warning up to 3 h ahead over Jharkhand. There are three components of the system. First, identification of the initial development and tracking of thunder cells by mosaic composite reflectivity data from multiple radars. The future location of thunder cells, and their growth or dissipation in terms of radius is estimated by extrapolation using their past trends. Secondly, based on this forecast information, an SMS is generated by the web-based GIS portal of Jharkhand Space Applications Centre for the forecast location and sent to the concerned state officials and mobile service providers over that region. Finally, the warning SMS is sent to all the active mobile users over that region at that time. The system combining nowcasting and dissemination of warning directly to the likely affected people is expected to be more robust considering its effectiveness in the reduction of human casualty.

Keywords


Dissemination System, Lightning, Nowcast, Short Message Service, Thunderstorm.

References





DOI: https://doi.org/10.18520/cs%2Fv120%2Fi7%2F1194-1201