As the heavy snow storm occurrence increases due to the climate change, the demage caused by snowstorm also increases. Therefore,in this study, RCP climate change scenario 4.5 and 8.5 are applied for the frequency analysis of future probable fresh snow days and probable maximum fresh snow depth. Artificial Neural Network (ANN) models are constructed for the frequency analysis. Data in the input layer of ANN are the minimum, maximum, and average temperature and precipitation data for the simulation of the fresh snow days. Another ANN model has also the minimum, maximum, and average temperature and precipitation data for the simulation of the maximum fresh snow depth. Learning of ANN model used two types of data. The first uses total 74 gauging stations data and the second model uses each gauging station data separately. The model efficiency of the first model is higher than the second. Quantile mapping is applied to remove the discrepancy of the climate change data and to generate the outlier data from the model. As the result,probable fresh snow days and probable maximum fresh snow depth tend to decrease over the entire Korean Peninsula. Decreasing tendency in Kangwon province is noticeable. In Kyungsan province, maximum fresh snow depth decreases but fresh snow days increases.