Extracting groundwater has caused large-scale land subsidence in Changhua County. The Taiwan High Speed Railway (THSR) passes through a serious subsidence area in Sijhou Township, where subsidence poses a serious threat to its operation. A major issue is to effectively monitor land subsidence. Multi-temporal InSAR (MT-InSAR) techniques, involving the processing of multiple acquisitions in time, can measure ground displacements to an accuracy comparable to that of precision leveling. This study uses three MT-InSAR methods, including PSInSAR, StaMPS/MTI and TCPInSAR, with 19 ALOS PALSAR acquisitions (L-band) from 2006 to 2011, and 20 Envisat ASAR acquisitions (C-band) from 2006 to 2011 to determine subsidence. We analyze subsidence rates in six cases (three methods multipled by two kinds of SAR images). We validate the InSAR results by leveling data in the Changhua region. This study demonstrates the effectiveness of PSInSAR, StaMPS/MTI and TCPInSAR in monitoring land subsidence. With the Envisat images, the density of the temporarily coherent points determined by TCPInSAR is the highest, and is about 241 pixel/km2. StaMPS/MTI yields vertical displacements matching the leveling result to 0.68 cm/year (RMS), which is the smallest discrepancy when Envisat images are used. With the ALOS images, StaMPS/MTI results in the highest point density in the persistent scatterers and is about 371 pixel/km2. The vertical rates from PSInSAR and the ALOS images agree with the rates from leveling to 0.73 cm/year (RMS).