Satellites and Spacecraft Wideband InterNetworking engineering test and Demonstration Satellite "KIZUNA"(WINDS)

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Jan. 30, 2013 Updated

Agreement signed with JMA on demonstration supporting disaster medicine

Agreement signed with JMA on demonstration supporting disaster medicine

JAXA and the Japan Medical Association (JMA) signed an agreement to jointly conduct application experiments of the Wideband Internetworking Engineering Test and Demonstration satellite “KIZUNA” to support disaster medicine, after JAXA and JMA studied the utilization method of the KIZUNA in support activities and measures at the time of a large-scale disaster.For disaster medicine support activities, it is imperative to understand the actual conditions of shelters, and the sick and wounded at a ...

About Wideband InterNetworking engineering test and Demonstration Satellite "KIZUNA" (WINDS)

New Internet Society with Satellites
Aiming for a society where anybody can get information anytime, anywhere

KIZUNA (WINDS) was jointly developed by JAXA and the National Institute of Information and Communications Technology, as part of the e-Japan Priority Policy Program of the Japanese government's IT strategy headquarters. KIZUNA was launched by H-IIA Launch Vehicle No.14 at 5:55 p.m. on February 23, 2008 (JST) from the Tanegashima Space Center to establish the world's most advanced information and telecommunications network.

It is expected that this information and telecommunications network's speed and capacity will be much higher than anything achieved previously. KIZUNA satellite communication system aims for a maximum speed of 155Mbps (receiving) / 6Mbps (transmitting) for households with 45-centimetre aperture antennas (the same size as existing Communications Satellite antennas), and ultra-high speed 1.2 Gbps communication for offices with five-meter antennas.

In addition to establishing a domestic ultra high speed Internet network, the project also aims to construct ultra high speed international Internet access, especially with Asian Pacific countries and regions that are more closely related to Japan. KIZUNA project is responsible for the demonstration of the validity and usefulness of technologies related to large-capacity data communications in our space infrastructure project, "i-Space," the purpose of which is to promote the use of satellites in such fields as Internet communications, education, medicine, disaster measures and Intelligent Transport Systems.

Lauch date: February 23, 2008

Characteristics of Wideband InterNetworking engineering test and Demonstration Satellite "KIZUNA" (WINDS)

KIZUNA satellite communication system uses the latest technology to create a faster, more efficient and more convenient communications environment.

KIZUNA will lead to ultra-high speed international Internet-based communications. The technology takes advantage of the fact that satellite communications are far-reaching, multicasting, and disaster-resistant. It will enable high-speed, large-volume data transmission, allowing ultra-fast domestic and international Internet-based communications, in particular between Japan and its neighboring countries in the Asia-Pacific region.

Ultra-fast satellite-based Internet-based communications will remove the so-called digital divide by providing high-speed Internet service in areas where the terrestrial communications infrastructure is poor. Among other uses, this will make possible great advances in telemedicine, which will bring high-quality medical treatment to remote areas, and in distance education, connecting students and teachers separated by great distances.

Major Characteristics

International Designation Code 2008-007A
Launch Date 17:55, February 23, 2008 (JST)
Launch Vehicle H-IIA Launch Vehicle No.14
Location Tanegashima Space Center
Shape Box-shaped structure with 3m in depth x 2m in width x 8m in height (including a tower)
Weight Approx. 2700kg (at the beginning of mission life)
Orbiter Geostationary Earth Orbit (GEO) (East Longitude 143degrees tentative)
Altitude Approx. 36,000km
Inclination 0 degrees
Period Approx. 24 hours
Attitude Control Three-axis stabilization

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