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| Company type | Subsidiary |
|---|---|
| Industry | Mobile-satellite services |
| Founded | 1997; 28 years ago (1997) |
| Headquarters | United Arab Emirates |
| Owners | Al Yah Satellite Communications |
| Website | www |
Thuraya (Arabic:الثريا,Gulf Arabic pron.:[ɐθ.θʊˈrɑj.jɐ]; from the Arabic name for thePleiades,Thurayya)[1] is aUnited Arab Emirates-based regionalmobile-satellite service (MSS) provider. The company operates twogeosynchronous satellites and provides telecommunications coverage in about 150 countries inEurope, theMiddle East, North, Central and EastAfrica andAsia[2][3] Thuraya'sL-band network delivers voice and data services.
Thuraya is the mobile satellite services subsidiary ofYahsat, a global satellite operator based in the United Arab Emirates, fully owned byMubadala Investment Company.[citation needed]The geostationary nature of the service implies high round-trip times from satellite to Earth, leading to a noticeable lag being present during voice calls.
Thuraya'scountry calling code is +882 16, which is part of theITU-TInternational Networks numbering group. Thuraya is not part of the +881country calling code numbering group, as this is allocated by ITU-T for networks in theGlobal Mobile Satellite System, of which Thuraya is not a part, being a regional rather than a global system.
Transceivers communicate directly with the satellites using an antenna of roughly the same length as the handset and have a maximum output power of 2 watts.QPSK modulation is used for theair interface. Thuraya SIM cards work in regularGSM telephones, and ordinary GSM SIM cards can be used on the satellite network as long as the SIM provider has a roaming agreement with Thuraya. As with all geosynchronous voice services, a noticeable lag is present while making a call.
Due to the relatively high gain of the antennas contained within handsets, it is necessary to roughly aim the antenna at the satellite. As the handsets contain a GPS receiver, it is possible to program the ground position of the satellites as waypoints to assist with aiming. The service operates on L-band carriers assigned in blocks to areas of coverage referred to as "spotbeams", which are Thuraya's equivalent to cells or service areas. In L-band, 34 MHz of bandwidth from 1.525 GHz to 1.559 GHz is assigned for downlink (space-to-Earth) communication, while the uplink (Earth-to-space) operates between 1.6265 GHz and 1.6605 GHz. Uplink and downlink channels are 1087 paired carrier frequencies, on a raster of 31.25 kHz. Atime-division multiple access (TDMA) time-slot architecture is employed which allocates a carrier in time slots of a fixed length.[citation needed]
Every Thuraya phone and standalone transceiver unit is fitted with aGPS receiver and transmits its location to the Thuraya gateway periodically.[4][5] The built-in GPS capability can be used for waypoint navigation.
Thuraya operates twocommunications satellites built byBoeing.
The first satellite, named Thuraya 1, had deficient solar panels and could not operate properly; this satellite was positioned above Korea for testing purposes. It was launched on 21 October 2000 bySea Launch on aZenit 3SL rocket.[6] At launch it weighed 5250 kg.[7] The satellite was used for testing and backup until May 2007, when it was moved tojunk orbit and declared at its end of life.[8]
Thuraya 2 was launched by Sea Launch on 10 June 2003.[9] It is located ingeosynchronous orbit at 44° E longitude with 6.3° inclination.[10] The satellite can handle 13,750 simultaneous voice calls. This satellite currently serves most of Europe, the Middle East, Africa and parts of Asia. The craft had a weight of 3200 kg and an expected life of 12 years. The two solar-panel wings, each containing five panels, generate 11 kW electric power. The craft has two antenna systems: a roundC-band antenna, 1.27 meters in diameter and a 12 × 16 meter AstroMesh reflector, 128 elementL-band antenna, supplied by Astro Aerospace inCarpinteria, California. These antennas support up to 351 separatespot beams, each configurable to concentrate power where usage needs it.[11] Amateur astronomer observations suspected that the nearby MENTOR 4USA-202, a satellite belonging to the USNational Reconnaissance Office, was eavesdropping on Thuraya 2, and this was reported to be confirmed by documents released on 9 September 2016[12] byThe Intercept as part of theSnowden files.[13]
The third satellite was planned for launch bySea Launch in 2007, and the start of Far East and Australia service was planned for 15 October 2007. The failure in January 2007 of theNSS-8 mission on another Sea Launch rocket led to a substantial delay in the launch of Thuraya-3, which was rescheduled for 14 November 2007, but the launch was postponed several times due to sea conditions.[14] The launch vessels set out from port again on 2 January 2008, and launch occurred successfully at 11:49 GMT on 15 January 2008.[15][16] The Thuraya 3 satellite is technically the same as Thuraya 2, but located ingeosynchronous orbit at 98.5° E longitude with 6.2° inclination.
On 15 April 2024, Thuraya 3 suffered an "unexpected payload anomaly" and despite attempted recovery efforts, coverage provided by this satellite was unable to be restored.[17] Thuraya advised that they have suffered a sustained force majeure event and withdrew offering services to regions affected (such as Australia, New Caledonia, Papua New Guinea, Papua, East Timor, and Indonesia).
Thuraya 4-NGS (Next Generation Satellite)[18] is a satellite launched on aSpaceXFalcon 9 rocket on 3 January 2025.[19][20][21] It will replace Thuraya 2. This process will span several months until Thuraya 4 reaches its operational geostationary orbit at 44° East, approximately 36,000 kilometers above Earth.[21]
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