This study applied GAOT (Genetic AIgorithm and Operation Tree Model) to improve the rainfall estimation which is the most important forcing for hydrogeomorphic processes and natural hazards. The radar reflectivity from the Wufenshan Doppler radar data and the ground Shih-Men raingauge are the input variable and target, respectively. The 10 most torrential typhoon events between 2000 and 2010 are the input variables to estimate the rainfall of the Shih-Men raingauge station. Two genetic algorithm operation tree (GAOT) models, including five layers and six layers operation tree, are proposed and the estimations were compared with the empirical rainfall estimation formula (Z=aR^(b)). The results showed that the root mean squared errors (RMSEs) of the GAOT with six layers is minimum at both training and testing stages, which is better than those of the Z-R equation by traditional regressive method but similar to those of GAOT with five layers. Therefore, we suggest the simpler Z-R equation obtained by GAOT with five layers.