In the past, we assume that the statistical characteristics of rainfall no matter in the past or in the future were the same, this concept is called stationarity. However, because of climate change, we face more intense and frequent extreme hydrological events nowadays, the stationarity assumption may be inappropriate. Consequently, non-stationary situation becomes increasingly popular and corresponding assessment approaches need to be re-evaluated carefully. This study is divided into two parts, hydrological frequency analysis and precipitation simulation, and both of which make use of the concept of non-stationary. For the first part, this study determines each single event and their properties to analyze the precipitation data from nine major stations in Taiwan. Based on the scheme of Identification of Distribution and Trend (IDT), the method of Ensemble Empirical Mode Decomposition (EEMD) is applied to explore the time variation of first and second statistical moments of time series. For the second part, multi-dimensional space of time points and their time lags are established to simulate the future monthly simulation, this concept is referred to as Simplex projection. Besides, by adding variables getting by modified K-NN method, we hope to increase the variability of exactly forecasting the future values. From the analysis of the first part, we find that the trends calculated by EEMD sufficiently demonstrate the characteristic of “short duration but high rainfall intensity”, and nearly all stations show obvious non-stationarity. For the second part, the combination usage of Simplex projection and modified K-NN method shows a better-fitting than the usage of Simplex projection alone. As a result, from the frequency analysis and future forecast, we can determine the hydrological risks, review the current management policies and engineering standards, and have a better long-term planning in hydraulic engineering.