Axelspace Corporation (HQ: Chuo-ku, Tokyo; CEO: Yuya Nakamura) and Weathernews Inc. announce today that the launch date of WNISAT-1R, the jointly-developed atmospheric and marine observation microsatellite, has been fixed for July 14, 2017. WNISAT-1R has completed all final operational checks and has already reached the launch site in Baikonur, Kazakhstan.
With a mass of 43kg, the microsatellite WNISAT-1R is equipped with an optical camera to observe atmospheric and marine natural phenomena. To provide high quality information about the best sea routes in places like the Bohai Sea (China) and the Gulf of Saint Lawrence (Canada) during the winter and the Arctic Sea during the summer, it is necessary to frequently measure the distribution of sea ice. The most effective way to do this is with a dedicated satellite in space, and WNISAT-1R has been built to be such a satellite. Developed jointly by Axelspace and Weathernews, it inherits and improves on its predecessor WNISAT-1, which was launched in 2013. Moreover, besides its main mission described above, WNISAT-1R has the following secondary missions:
- Observation of natural phenomena like typhoons and active volcanoes anywhere on Earth. Thanks to its high attitude agility and to a completely automated operation regime, it is also able to respond promptly to emergency requests in case of natural disasters.
- GNSS-R1 (Global Navigation Satellite System – Reflectometry) mission. GNSS-R takes advantage of the microwave signals emitted by navigation satellites, such as GPS, reflected by the surface of the Earth to determine the properties of the ground. Because microwaves are unaffected by clouds, this technology may detect ice distribution even when the sea is completely overcast. GNSS-R is an experimental mission, intended as a precursor for future, more advanced applications.
WNISAT-1R has been developed with the same bus technology that was used in Hodoyoshi-1, launched in 2014, and thus greatly surpasses the capabilities of WNISAT-1 while requiring a shorter development time and, consequently, lower costs.
|The number of cameras||4 (independent bands)|
|Pixel Count||2048 × 2048|
|Dimensions||524 × 524 × 507mm（Excluding protrusions）|
|Power Generation||55-59 W（Averaged）|
|Attitude Control||Three-axis control with following modes
（Pointing accuracy: 0.1 deg）
De-spin(3),Sun-pointing, Earth-pointing (nadir and off-nadir)
and ground point tracking
|Launch Period||July 14, 2017 (delays possible in case of bad weather or other inevitable reasons)|
|Launch Base||Baikonur Cosmodrome, Kazakhstan|
|Orbit||Sun synchronous (ascending node local time 11:30 AM),
- GNSS: acronym standing for Global Navigation Satellite System. Besides the GPS constellation developed and operated by the United States, the term also covers other projects such as Russia’s GLONASS and Europe’s Galileo.
- PAN: abbreviation of “panchromatic”. It refers to a single band that is sensitive to all visible wavelengths.
- De-spin: control mode aimed at slowing down the spacecraft’s rotation and stabilizing its attitude.
Head office location: Clip Nihonbashi Building 2-3F, 3-3-3 Nihonbashi-Honcho, Chuo-ku, Tokyo 103-0023, Japan
President & CEO: Yuya Nakamura
Establishment: August 8, 2008
Capital stock: 1,957 Million JPY (as of June 2017)
Main business content: Solutions based on microsatellite technology, design and production of microsatellites and related components, launch arrangements and operational support, business related to microsatellite data