Whether or not we can found a distinct change in the recent weather and climate extremes that is detectable from natural variability is a rather controversial research topic. Our project aimed at using probabilistic event attribution framework to study anthropogenic impact on recent weather extremes (e.g. tropical cyclone). There are three important golds of this study. First is on the estimation of anthropogenic warming of the past century. It is evaluated by the difference from 20th century historical run with all forcing and natural forcing only experiments in the CMIP5 climate model data archive. The uncertainty of estimation would be quantified by the spread of multi-model ensemble. The second milestone is the detailed validation on whether a high-resolution regional model can reasonably simulate the evolution of a typhoon affecting Taiwan and the associated rainfall. Finally, the ensemble simulation of historical scenarios and natural only scenarios is used to quantify the impact of human factors on typhoons. By applying the probabilistic event attribution statistics to the ensemble simulations of 2009 typhoon Morokat. We found that while the anthropogenic impact did not change the typhoon track systematically, and there is a significant increase of 5% on the intensity index of tropical cyclone. More importantly, our result suggests that there is a 10-15% increase in the risk for tropical cyclone rainfall extremes when anthropogenic forcing included in the Typhoon Morakot simulation. The increase is not only supported by the more abundance of water vapor. The additional dynamical impact from the enhancement of ascending motion corresponded well to the location of rainfall extreme increases.