As Global Positioning System (GPS) signal propagates in the neutral atmosphere, the troposphere refraction will cause the propagation path delay. This study focuses on the effect of the zenith total delay (ZTD) of troposphere derived from Water Vapor Radiometers (WVR) as the external corrections to correct troposphere delay for high precision GPS relative positioning. The GPS observations, meteorological data and WVR measurements covering 118 days from 15(superscript th) March to 10(superscript th) July 2006 were collected for this study. The result shows (1) A comparison of ZTD derived from GPS and WVR respectively shows an excellent agreement at 10-23 mm standard deviation. (2) The vertical positioning and velocity accuracies of the baseline of YMSM-PKGM (about 218 km) are improved by applying WVR data, and there are bias of height at several mm and velocity at several mm/yr. (3) The network solutions of Taiwan tracking stations are computed using WVR at two stations. Limited to the number of WVR instruments, which can only provide the zenith total delay corrections at two stations of the regional network in Taiwan, the accuracy is not improved significantly; however, we find out that using gradient parameters can improve the horizontal accuracy.