Groundwater plays an important role on regional water supply, and observation wells are critical for groundwater related analysis and management. In Taiwan, a national wise groundwater observation network was completed in 2008 and a huge amount of groundwater levels data were collected. However, because of the uncertainty of data collecting instruments and wells maintenance, data miss is unavoidable. To addendum the missing groundwater levels data, this study developed a novel data addendum procedure based on the Linear Regression (LR) and Short-Time Fourier Transform (STFT). The proposed novel procedure can preserve the data features in time domain and frequency domain. The proposed method consists of three steps. The first step is to estimate the missing daily data by using a LR model based on the neighboring well data that has the highest correlation with the well data to be addendum. The process was expected to preserve the low frequency variation of the groundwater table below 1 cycle/week. The second step is to transform the time series data to be addendum into frequency domain via STFT. The resulting spectrum will have missing segment due to the missing data. The third step is to completed the spectrum and obtains the complete groundwater level data. To addendum the spectrum, the missing spectral segment was recovered by jointing the low frequency portion of the interpolated daily data and the high frequency part of the original data to be addendum. The complete groundwater level data was obtained by using Inversed STFT to the addendum spectrum. The proposed methodology was applied to addendum the groundwater levels data in northern part of Chianan Plain and the result shows that the addendum data can effectively preserve the data features in both time domain and frequency domain. The methodology can be applied to addendum other hydrological time series data to allow the application of data driven analysis.