Due to the proximity of Earth with the sun and moon, gravitational forces create periodic changes on the surface of the planet. More than 70% of the Earth is covered with water. In these area, the magnitude of changes is more significant than that of the land. The tide is a phenomenal event on Earth, with sea tide observation contributing greatly to the use of waterbodies such as sea, river, and lakes, as well as human understanding of nature. The technology applied for tide measurement, includes tide staff, float, pressure, acoustic, RADAR, laser, and others. Besides those solely measuring height, and installed on a fixed site, there are techniques based on satellite, such as GNSS buoy, GNSS-R, and satellite RADAR altimeter, developed in contemporary times. Classified as part of ＂height modernization＂, besides the sea surface height based on ellipsoid, these techniques provide horizontal position simultaneously. Buoy and RADAR altimeters are not installed at fixed sites, and serve to enrich the tide observation methods. Each technology has its advantages and limitations. This paper intends to briefly review the commonly applied methodologies for tide measurement, including their principle and characteristics.