This study employed independent component analysis (ICA) and Wavelet Multiresolution Analysis (WMRA) to identify the pumping features of the study area. ICA can successfully separate the features of head variations caused by rainfall and river stage; however, the explanations of the pumping features still need to be further improved since the pumping features consist of high and low -frequency signals. Accordingly, this study employed WMRA to analyze the pumping components from ICA to extract and explain the low and high -frequency signals. The proposed method was employed to the shallow aquifer of Zhuoshui River alluvial fan, and two cases were used for examining the capability of the proposed method: (1) Local case study: The proposed method was applied to the seven groundwater observation wells located in the Huwei Town, and the derived pumping features were compared with the pumping records of 87 pumping wells in this area in 2016. The results show that the low -frequency pumping features highly correlates with rainfall and agriculture pumping schedule, while the high-frequency pumping feature highly correlates to human’s lifestyle. (2) Regional case study: The head observations of the 58 groundwater monitoring wells were analyzed by the proposed method, and the progress of analyzing the pumping components using WMRA was explained here. The derived pumping features based on the proposed method are valuable references for the regional groundwater resources management.