GPS (Global Positioning System) precise positioning can provide accurate static and epoch-by-epoch positioning result, and is widely used in geodetic monitoring. The BDS (BeiDou Navigation Satellite System) has been fully-operational in Asia-Pacific region. Currently in Taiwan, BDS can provide as many visible satellites as GPS can provide. Moreover, both of BDS and GPS transmit signal are based on CDMA, which means these two systems are highly compatible. Therefore, we expect to achieve better positioning performance by combining GPS and BDS. In this study, we develop a generalized computation method and use the method to perform GPS-only and GPS+BDS relative positioning and to evaluate the impact of GPS+BDS in continuously operating reference station (CORS) mode, in campaign mode, and in epoch-by-epoch positioning. For data analyses, five experimental baselines which ranging from 50km to 265km were collected. The results indicate that (1) in CORS mode, GPS+BDS has similar horizontal daily solutions as GPS, and is slightly better than GPS in vertical daily solutions; (2) in campaign mode, for data length ≤ 2hr, obvious positioning accuracy improvement could be obtained by GPS+BDS. For data length ≥ 4hr, GPS+BDS would have similar positioning accuracy as GPS. For data length ≤ 2hr, the required occupation time for achieving a predefined accuracy can be significantly reduced by applied GPS+BDS; (3) for epoch-by-epoch positioning, the positioning accuracy can be improved by 19% in horizontal direction and by 23% in vertical direction.