To establish GPS buoy above the surface near Tide Gauge for continuously monitoring sea level change and dealing with the dynamic relative positioning of the GPS tracking station integrated with the Tide Gauge, the instantaneous position of GPS buoy can be solved. Then based on ellipsoid height of each point and time series, the curve of height distribution is drawn. The curve can represent the instantaneous position of the sea surface. However, when the GPS buoy drifts on the surface of the sea, the antenna of GPS cannot continuously perpendicular to the buoy due to up and down of the wave. It causes the error of ellipsoid height measured from the GPS receiver. To avoid the error, this article will discuss the design of GPS buoy, the principle of buoy altitude measurement, the derivative of correction formula and the test of field survey. It is proved that if the antenna is set up at the geometry center of the GPS buoy surface and the antenna height is as short as possible (only antenna is preferred. not tripod), the accuracy of mean value of ellipsoid height obtained from the solution of instantaneous position is enough. It is not necessary to establish three GPS antenna for determining the angular orientation of the GPS buoy.