A GNSS antenna is mounted on the top of the buoy and the sea level is measured in real time using satellite positioning data. The buoy has a structure that can withstand harsh sea conditions such as typhoons. It holds its position by anchors and mooring lines installed on the seafloor. The power required for lighting equipment and monitoring is supplied by solar power generation. Remote monitoring is used to check the temperature and humidity inside the buoy, as well as to determine the presence or absence of water leaks.

In order to observe crustal movements with millimeter accuracy, Kanadevia is involved in the construction, maintenance, and operation of electronic reference point network facilities and real-time continuous observation systems of the Geospatial Information Authority of Japan. We provide highly-accurate displacement monitoring technology and services with the goal of realizing a society in which satellite positioning and geospatial information can be utilized in an advance manner.
Furthermore, Kanadevia is developing technology for real-time measurement of position of the earth's surfaces and tides with high accuracy even over ultra-long distances (about 1,000 km). We will utilize this technology in the fields of disaster prevention and the ocean.

Kanadevia provides systems which combine position measurement results and various information management algorithms. These systems are used to monitor changes in ground and crustal movements that are effective in predicting earthquakes and landslides, and to monitor changes in the position of structural displacement (infrastructure equipment such as roads, bridges, sluices, dams, and embankments).

Main fields of application

Disaster prevention, disaster mitigation, safety, security, construction, civil engineering, surveying, environment

Features

Automatic data collection and automatic analysis, high-precision position measurement, wide range of result display screen

This is a real-time analysis software with various analytical functions. In addition to the coordinate values, it is also possible to output the troposphere, ionospheric delay amount, etc. This enables us to construct systems that match the usage scenes.

Main fields of application

Disaster prevention, disaster mitigation, safety, security, construction, civil engineering, surveying, environment

Kanadevia uses the GNSS observation network to provide the results of analysis for the amount of water vapor in the sky before it falls on the ground. This technology is used in response to localized heavy rains, such as the torrential rainstorms which recently occur with high frequency in Japan.

Features

Providing precipitable water data in real-time or historical data
Data is provided in three forms: 60-minute value, 30-minute value, and 10-minute value.