AISSat-1

AISSat-1
Mission type	Technology
Operator	Statsat
COSPAR ID	2010-035C
SATCAT no.	36797
Mission duration	3 years
Spacecraft properties
Bus	GNB
Manufacturer	UTIAS
Launch mass	6 kilograms (13 lb)
Start of mission
Launch date	12 July 2010, 03:52 UTC
Rocket	PSLV C15
Launch site	Satish Dhawan FLP
Contractor	ISRO
Orbital parameters
Reference system	Geocentric
Regime	Low Earth
Perigee altitude	618 kilometres (384 mi)
Apogee altitude	635 kilometres (395 mi)
Inclination	98.02 degrees
Period	97.11 minutes
Epoch	25 December 2013, 12:05:42 UTC

AISSat-1 is a satellite used to receive Automatic Identification System (AIS) signals. Launched on 12 June 2010 from Satish Dhawan Space Centre as a secondary payload, AISSat-1 is in a Sun-synchronous low Earth orbit. Initially a development project, the satellite has since passed into ordinary operations. Via downlinks at Svalbard Satellite Station and at Vardø Vessel Traffic Service Centre it tracks vessels in the Norwegian Sea and Barents Sea for the Norwegian Coastal Administration, the Norwegian Coast Guard, the Norwegian Directorate of Fisheries and other public agencies.

The satellite was developed as a cooperation between the Norwegian Defence Research Establishment (NDRE), the Norwegian Space Centre and the Coastal Administration. The payload was developed by Kongsberg Seatex while the University of Toronto Institute for Aerospace Studies built the bus and completed manufacture. The satellite measures 20 centimeters (7.9 in) cube and weighs 6 kilograms (13 lb). Ownership and operation passed to Statsat in 2013. The satellite has since 2014 been supplemented with AISSat-2 and from 2015 by AISSat-3.

Background

The Automatic Identification System was developed as a navigational aid for shipping traffic, initially primarily as a collision avoidance system. The system became mandatory most commercial ships from 2008. AIS was designed as a terrestrial system with AIS transponders operating on the very high frequency (VHF) range. In addition to ship-to-ship tracking, AIS could be monitored by a series of coastal base stations. The idea for satellite monitoring arose later and was mostly intended for maritime surveillance and control, as well as safety monitoring.^[3]

The Norwegian Defence Research Establishment took the first steps towards AIS satellite use in 2003 paper. A main concern was the low transmitting power of AIS, typically one to twelve watts. Simultaneous transmission could also result in data packet collision and thus make all transmissions unreadable.^[3] Research later concluded that satellite monitoring of heavily trafficked areas would be near impossible, but that satellite surveying of the sparsely used Arctic waters would be effective. The AIS infrastructure in Norway was built and is operated by the Norwegian Coastal Administration in cooperation with the Norwegian Armed Forces. It was this cooperation which led to the development of the satellite AIS system.^[4]

Increased focus on the High North arose following the appointment of Stoltenberg's Second Cabinet in 2005. The AISSats are part of a larger policy to strengthen Norway's grip on the Arctic areas.^[5] Norway's exclusive economic zone (EEZ) covers sea areas around Svalbard and Jan Mayen,^[6] which in addition to the continental EEZ gives it an area of 1,878,953 square kilometers (725,468 sq mi).^{[citation needed]} Eighty percent of all Arctic shipping traffic passes through Norway's EEZ.^[5]

Development

Specific research into what became AISSat-1 began in 2005 as a cooperation between the Norwegian Space Centre, Norwegian Defence Research Establishment and Kongsberg Seatex. The initial research concluded that a satellite within an orbit of 1,000 kilometers (620 mi) would be able to receive AIS communication. A particular challenge during this period was the need for an antenna with sufficient length to match the wavelength, which would be difficult with a small satellite profile.^[4] As part of the development, an AIS transceiver was attached to the International Space Station to test out the receptivity of AIS signals in low Earth orbit.^[7] AISSat-1 was Norway's first non-commercial satellite.^[8]

The satellite was regarded as experimental by the involved parties. Design of the payload and AIS components was carried out by Kongsberg Seatex. The project is owned by the Norwegian Space Centre while NDRE was responsible for technical aspects. Once operational, the data was fed to the Coastal Administration. Production was subcontracted to the University of Toronto Institute for Aerospace Studies (UTIAS) using their Generic Nanosatellite Bus as the satellite bus.^[6]

AISSat-1 is built around the University of Toronto's Generic Nanosatellite Bus. The satellite measures 20 centimeters (7.9 in) cubed. It is solar-powered collected by thirty-six panels and stored in two batteries. There are three onboard computers, each with an ARM7 microcontroller. One operates household issues such as telemetry while one handled attitude control. The third handles payload operations. There are four ultra high frequency antennas for telemetry. Attitude is adjusted through three reaction wheels. The payload consists of a VHF antenna and an onboard computer for storing and processing of AIS data.^[6]

Launch

AISSat was a secondary payload which was launched on 12 July 2010 at 03:52 UTC from the First Launch Pad at Satish Dhawan Space Centre in India. The satellite was carried on board a Polar Satellite Launch Vehicle operated by the Indian Space Research Organisation. The main payload of the mission was the reconnaissance satellite Cartosat-2B. In addition to AISSat-1, secondary payloads were AlSat-2A, TISat-1 and StudSat.^[6]

AISSat was placed into a Sun-synchronous polar orbit with an altitude of 635 kilometers (395 mi). It received an inclination of 97.71° and a period of 97.4 minutes. UTIAS retained responsibility for launch and commissioning, after which operational responsibility was transferred to NDRE.^[6] The satellite was designed, built and launched within schedule and budget.^[4]

Mission

NASA video demonstrating the advantages of the Norwegian AIS satellite program

AISSat-1 was built as an experimental satellite to investigate the feasibility of collecting AIS data from space. The satellite quickly proved to meet its expectations and has since been regarded as an operational satellite.^[4] Telemetry including data download is handled from Svalbard Satellite Station. From 2015 a second ground station, at Vardø Vessel Traffic Service Centre, was opened. Since 2013 operation of the satellite passed to Statsat.^[9]

The primary operational goal is the gathering of positioning and course information from fisheries and ship traffic within the Norwegian EEZ with the intent of environmental surveillance. The vessel data is used by the Coastal Administration and in particular Vardø Vessel Traffic Service Centre to monitor ship traffic. The data is stored and can also be used to collect accurate statistics on ship traffic in the Arctic.^[10] Unlike terrestrial data collection, the satellite information is not made publicly available. A contributing cause is that certain fishers many not want to reveal their fishing positions and could then have chosen to turn off their AIS instead.^[8]

The AIS data is used by the Norwegian Directorate of Fisheries for surveillance of the fisheries fleet to identify illegal fishing. Controls involve checking if ships rendezvous with other ships and when they dock. This information is then controlled with logs. This means of controlling has been an efficient preventative measure. Beyond use in the high north, AISSat-1 gradually sweeps above the entire globe in the course of a twenty-four hour period. This allows tracking of ship traffic in other areas under Norwegian jurisdiction around Bouvetøya and for instance data for combating piracy off Africa.^[10]

Data can also be used to identify any ship causing an oil spill.^[10] There are more than one thousand annual oil spills and illegal dumping in Norwegian waters. While observation satellites have previously been able to identify spills, the satellite AIS monitoring can normally identify the culprit and the data used as evidence. The Coast Guard, the Custom Service, the Police Service and the Armed Force can utilize the data from the data.^[8]

A build-to-print copy of the satellite, AISSat-2, was launched on 8 July 2014. It is intended to be followed by a third satellite, AISSat-3, in 2015. The added satellites are intended to provide redundancy in case of data capturing failure in one satellite.^[6]

References

^ "UCS Satellite Database". Union of Concerned Scientists. 1 September 2013. Archived from the original on 4 January 2014. Retrieved 25 December 2013.
^ "AISSAT 1 Satellite details 2010-035C NORAD 36797". N2YO. 25 December 2013. Retrieved 25 December 2013.
^ a b Carson-Jackson, J. (2012). "Satellite AIS – Developing Technology or Existing Capability?". The Journal of Navigation. 65 (2): 303–321. doi:10.1017/S037346331100066X.
^ a b c d "AISSat-1 – Norway's first observation satellite" (PDF). Norwegian Defence Research Establishment. Archived from the original on 20 September 2015. Retrieved 20 September 2015.
^ a b Bekkevold, Jo Inge; Offerdal, Kristin (2014). "Norway's High North Policy and New Asian Stakeholders". Strategic Analysis. 36 (6): 825–840. doi:10.1080/09700161.2014.952934. S2CID 153529820.
^ a b c d e f "AISSat-1 and 2". Earth Observation Portal / European Space Agency. Archived from the original on 12 September 2015. Retrieved 19 September 2015.
^ Amos, Jonathan (12 July 2010). "Norway launches AISSat ship-tracking spacecraft". BBC News. Archived from the original on 31 August 2010. Retrieved 2010-09-22.
^ a b c Barstein, Geir (29 April 2010). "– En historisk dag for Norge som romfartsnasjon". Dagbladet. Archived from the original on 12 May 2013. Retrieved 11 April 2012.
^ Stensvold, Tore (7 May 2015). "Nytt satellitt-senter i Vardø gir sikrere skipstrafikk i Arktis". Teknisk Ukeblad. Archived from the original on 15 July 2015. Retrieved 20 September 2015.
^ a b c "Norsk satellitt innfrir" (in Norwegian). Norwegian Space Centre. 6 May 2011. Retrieved 20 September 2015.

[UCS-1] "UCS Satellite Database". Union of Concerned Scientists. 1 September 2013. Archived from the original on 4 January 2014. Retrieved 25 December 2013.

[n2yo-2] "AISSAT 1 Satellite details 2010-035C NORAD 36797". N2YO. 25 December 2013. Retrieved 25 December 2013.

[jackson-3] Carson-Jackson, J. (2012). "Satellite AIS – Developing Technology or Existing Capability?". The Journal of Navigation. 65 (2): 303–321. doi:10.1017/S037346331100066X.

[ffi-4] "AISSat-1 – Norway's first observation satellite" (PDF). Norwegian Defence Research Establishment. Archived from the original on 20 September 2015. Retrieved 20 September 2015.

[bo-5] Bekkevold, Jo Inge; Offerdal, Kristin (2014). "Norway's High North Policy and New Asian Stakeholders". Strategic Analysis. 36 (6): 825–840. doi:10.1080/09700161.2014.952934. S2CID 153529820.

[eo-6] "AISSat-1 and 2". Earth Observation Portal / European Space Agency. Archived from the original on 12 September 2015. Retrieved 19 September 2015.

[bbc-7] Amos, Jonathan (12 July 2010). "Norway launches AISSat ship-tracking spacecraft". BBC News. Archived from the original on 31 August 2010. Retrieved 2010-09-22.

[barstein-8] Barstein, Geir (29 April 2010). "– En historisk dag for Norge som romfartsnasjon". Dagbladet. Archived from the original on 12 May 2013. Retrieved 11 April 2012.

[9] Stensvold, Tore (7 May 2015). "Nytt satellitt-senter i Vardø gir sikrere skipstrafikk i Arktis". Teknisk Ukeblad. Archived from the original on 15 July 2015. Retrieved 20 September 2015.

[innfrir-10] "Norsk satellitt innfrir" (in Norwegian). Norwegian Space Centre. 6 May 2011. Retrieved 20 September 2015.

v t e ← 2009 Orbital launches in 2010 2011 →
January	Compass-G1 Globus-1M No.12L
February	Progress M-04M STS-130 (Tranquility, Cupola) SDO Intelsat 16
March	Kosmos 2459 / GLONASS-M 731, Kosmos 2460 / GLONASS-M 732, Kosmos 2461 / GLONASS-M 735 GOES-15 / EWS-G2 Yaogan 9A, Yaogan 9B, Yaogan 9C EchoStar XIV
April	Soyuz TMA-18 STS-131 (Leonardo MPLM) CryoSat-2 GSAT-4 Kosmos 2462 USA-212 SES-1 Kosmos 2463 Progress M-05M
May	STS-132 (Rassvet, ICC-VLD) Akatsuki, IKAROS (DCAM-1, DCAM-2), Shin'en, Waseda-SAT2, Hayato, Negai ☆'' Astra 3B, COMSATBw-2 USA-213
June	SERVIS-2 Compass-G3 Badr-5 Dragon Spacecraft Qualification Unit STSAT-2B Shijian XII Prisma, Picard, BPA-1 Soyuz TMA-19 TanDEM-X Ofek-9 Arabsat-5A, Chollian Progress M-06M
July	EchoStar XV Cartosat-2B, AlSat-2A, StudSat, AISSat-1, TIsat-1 Compass-IGSO1
August	Nilesat 201, RASCOM-QAF 1R Yaogan 10 USA-214 Tian Hui 1
September	Kosmos 2464, Kosmos 2465, Kosmos 2466 Chinasat-6A Gonets-M No.2, Kosmos 2467, Kosmos 2468 Progress M-07M Michibiki USA-215 Yaogan 11, Zheda Pixing 1B, Zheda Pixing 1C USA-216 Kosmos 2469
October	Chang'e 2 Shijian 6G, Shijian 6H Soyuz TMA-01M XM-5 Globalstar 73, Globalstar 74, Globalstar 75, Globalstar 76, Globalstar 77, Globalstar 79 Progress M-08M Eutelsat W3B, BSat 3B Compass-G4
November	Meridian 3 Fengyun 3B COSMO-4 SkyTerra-1 STPSat-2, USA-220 / FASTSAT (NanoSail-D2), USA-221 / FalconSat-5, USA-222 / FASTRAC-1, USA-222 / FASTRAC-2, USA-218 / RAX, USA-219 / O/OREOS USA-223 / Orion 7 Chinasat 20A Intelsat 17, HYLAS-1
December	Glonass-M No.39, Glonass-M No.40, Glonass-M No.41 SpaceX COTS Demo Flight 1, Mayflower, SMDC-ONE 1, QbX-1, QbX-2, Perseus 000, Perseus 001, Perseus 002, Perseus 003 Soyuz TMA-20 Compass-IGSO2 GSAT-5P KA-SAT
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Cubesats are smaller. Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).