International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
  
Buechler, D., H.J. Chirstian, S.J. Goodman, 1994. Rainfall 
estimation using lightning data. Seventh Conf. Satell. Meteor. 
and Ocean., Amer. Meteorol. Soc., 6(10), pp. 171-174. 
Goodman , S.J., 1990. Predicting thunderstorms evolution using 
ground-based lightning detection networks. NASA Tech. 
Memo. TM-103521. 
Huffman, G.J., 1997. Estimates of root-mean-square random 
error contained in finite sets of estimated precipitation. J. Appl. 
Meteor., 36, pp. 1191-1201. 
Morales, C.A., J.A. Weinman, J. S. Kriz, and G.D. ‚Alexander, 
1997. Thunderstorm distributions for NASA/RDI sferics 
observing system. AGU, Fall, San Francisco, USA. 
Morales, C.A. and E.N. Angnostou, 2003. Extending the 
Capabilities of High-Frequency Rainfall Estimation from 
Geostationary-Based Satellite Infrared via a Network of Long- 
Range Lightning Observations. Journal of Hydrometeorology, 
4(2), pp. 141-159. 
Tappia, A., J.A. Smith, and M. Dixon, 1998. Estimation of 
convective rainfall from lightning observations. J. Appl. 
Meteor., 37, 1497-1509. 
Theon, J.S., 1994. The tropical rainfall measuring mission 
(TRMM ). Adv. Space Res., 14(3), pp. 159-165. 
Vicente G. A., R. A. Scofield, W. P. Menzel, 1998. The 
operational GOES infrared rainfall estimation technique. Bull. 
Amer. Soc.,79(9), pp. 1883-1898. 
Workman, E.J. and S.E. Reynold, 1949. Eletrical activity 
related to thunderstorm growth. Bull. Amer. Soc., 30, pp. 142- 
145. 
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