GPS signals are transmitted from satellite to earth through the atmosphere, causing refraction and delay. The tropospheric layer, which belongs to neutral atmosphere, the transmission speed of electromagnetic wave changes barely with signal frequency. For this reason, the troposphere bias cannot be eliminated with dual- frequency of carrier phase observation. Also, the troposphere bias becomes one of the most significant factors which influence the accuracy of GPS height positioning. To reduce the troposphere bias, the strategy, meteorological experience models, parameter estimation, and external correcting is frequently used. For the static network computation, empirical meteorological models are usually combined with parameter estimation. On the other hand, the direct meteorological observations may be used for improving the positioning accuracy. This scheme is referred as correction with external observation. The Ministry of Interior has installed one WVR (Water Vapor Radiometer) at PeiKang GPS Station, which can observe the absolute troposphere bias, and predict precisely the relative troposphere bias of each short baseline station nearby PeiKang when using parameter estimation collaboratively. This study investigates the potential of correction with external meteorological observations. From observing the time series of coordinates in a static network, experiments are conducted. This GPS network was established in Choshui River alluvial fan of Taiwan for subsidence monitoring. The data set includes 426 days GPS daily observation from 2007/11/2 to 2008/12/31. The results show that the standard deviation of vertical direction are from 2.088cm to 1.092cm at KTES station and from 2.675cm to 1.321cm at TKJS station with WVR observation.