Pléiades (satellite): Difference between revisions

Pléiades-1A and Pléiades-1B
	Pléiades satellite
Mission type	Earth observation
Operator	CNES
COSPAR ID	1A: 2011-076F; 1B: 2012-068A
SATCAT no.	1A: 38012; 1B: 39019
Website	CNES (Pléiades satellites)
Mission duration	5 years (planned)
Spacecraft properties
Bus	Astrosat-1000
Manufacturer	EADS Astrium Satellites
Launch mass	970 kg (2,140 lb) (each)
Start of mission
Launch date	1A: 02:03, 17 December 2011 (UTC); 1B: 02:02, 2 December 2012 (UTC)
Rocket	Soyuz ST-A / Fregat
Launch site	Centre Spatial Guyanais, ELS
Orbital parameters
Reference system	Geocentric orbit
Regime	Sun-synchronous orbit
Altitude	695 km (432 mi)
Inclination	98.2°

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The Pléiades constellation is composed of two very-high-resolution optical Earth-imaging satellites. Pléiades-1A and Pléiades-1B provide the coverage of Earth's surface with a repeat cycle of 26 days.^[1] Designed as a dual civil/military system, Pléiades will meet the space imagery requirements of European defence as well as civil and commercial needs.

History

The Pléiades system was designed under the French-Italian ORFEO Programme (Optical and Radar Federated Earth Observation) between 2001 and 2003.^[2]

The Pléiades programme was launched in October 2003 with CNES (the French space agency) as the overall system prime contractor and EADS Astrium as the prime contractor for the space segment.

Spot Image is the official and exclusive worldwide distributor of Pléiades products and services under a delegated public service agreement.

Launches

Pléiades-1A was launched via a Russian Soyuz ST-A launch vehicle of the Centre Spatial Guyanais, Kourou, French Guiana, on 17 December 2011 at 02:03 UTC.
Pléiades-1B was launched via a Russian Soyuz ST-A launch vehicle of the Centre Spatial Guyanais, Kourou, French Guiana, on 2 December 2012 at 02:02 UTC.^[3]^[4]

Technologies

Orbit

The two satellites operate in the same phased orbit and are offset at 180° to offer a daily revisit capability over any point on the globe. The Pléiades also share the same orbital plane as the SPOT 6 and 7, forming a larger constellation with 4 satellites, 90° apart from one another.^[5]

Orbit: Sun-synchronous, phased, near-circular
Mean altitude: 695 km

Equipment

Equipped with technologies like fibre-optic gyroscopes and control moment gyroscopes, Pléiades-HR 1A, and 1B offer roll, pitch, and yaw (slew) agility, enabling the system to maximize the number of acquisitions above a given area.

Agility for Responsive Tasking

This agility coupled with particularly dynamic image acquisition programming make the Pléiades system very responsive to specific user requirements. Individual user requests was answered in record time, thanks to multiple programming plans per day and a state-of-the-art image processing chain. Performance at a glance:

Image acquisition anywhere within an 800-km-wide ground strip with 70 cm of resolution
Along-track stereo and tri-stereo image acquisition
Single-pass collection of mosaics (strip-mapping) with a footprint up to a square degree
Maximum theoretical acquisition capacity of 1,000,000 km² per day and per satellite
Optimized daily acquisition capacity (taking into account genuine order book, weather constraints, conflicts...) reaching 300,000 km² per day and per satellite

Products

Resolution	Panchromatic: 50 cm
	Multispectral: 2 m
	Pansharpened: 50 cm
	Bundle: 50 cm PAN and 2 m MS
Footprint	20 km swath
	Single pass mosaics up to 100 x 100 km

^[6]

Ground receiving stations

When satellite operations begin, four ground receiving stations will be deployed for the direct downlink and archiving of imagery data:

Two defence centres in France and Spain
Two civil stations: one in Toulouse (France) and a polar station in Kiruna (Sweden), which receives most of the data

Regional receiving stations (fixed or mobile) are subsequently installed at the request of users.

Uplink Stations

The Pléiades tasking plan are refreshed and uploaded three times per day, allowing for last minute requests and the ability to utilize up-to-the-minute weather forecasts.^[7]

The Kerguelen Island station uploads the morning pass, over Europe, Africa and the Middle East.
The Swedish station takes care of midday orbits, over North and South Americas.
The French station transmits the last tasking plan of the day over Asia and Oceania.

References

^ "Pléiades System CNES"
^ "Pléiades CNES Mag"
^ "Soyuz rocket blasts off from French Guiana". Reuters. 2 December 2012.
^ "Lancement Soyouz-ST-A VS04 / Pléiades-1B". forum-conquete-spatiale.fr.
^ "Pleiades eoPortal Directory". eoPortal. Retrieved 4 June 2015.
^ "Pléiades Products CNES"
^ "Pléiades Responsive Stations"

External links

[1] "Pléiades System CNES"

[2] "Pléiades CNES Mag"

[3] "Soyuz rocket blasts off from French Guiana". Reuters. 2 December 2012.

[4] "Lancement Soyouz-ST-A VS04 / Pléiades-1B". forum-conquete-spatiale.fr.

[5] "Pleiades eoPortal Directory". eoPortal. Retrieved 4 June 2015.

[6] "Pléiades Products CNES"

[7] "Pléiades Responsive Stations"

[1]

[2]

[3]

[4]

[5]

[6]

[7]

@@ Line 22: / Line 22: @@
 | launch_mass       = {{cvt|970|kg}} (each)
 | dimensions        =
 | power             =
 | launch_date       = '''1A''': {{start date|df=yes|2011|12|17|02|03|7=Z}}<br/>'''1B''': {{start date|df=yes|2012|12|02|02|02|7=Z}}
 | launch_rocket     = [[Soyuz-2|Soyuz ST-A]] / [[Fregat]]
 | launch_site       = [[Guiana Space Centre|Centre Spatial Guyanais]], [[Ensemble de Lancement Soyouz|ELS]]
 | launch_contractor =
 | entered_service   =
@@ Line 33: / Line 33: @@
 | deactivated       =
 | destroyed         =
 | last_contact      =
 | orbit_reference   = [[Geocentric orbit]]
@@ Line 51: / Line 51: @@
 }}
-The '''Pléiades''' [[Satellite constellation|constellation]] is composed of two very-high-resolution optical [[Earth-imaging satellite]]s. '''Pléiades-1A''' and '''Pléiades-1B''' provide the coverage of Earth's surface with a repeat cycle of 26 days.<ref>"[http://smsc.cnes.fr/PLEIADES/GP_systeme.htm Pléiades System CNES]"</ref> Designed as a dual civil/military system, Pléiades will meet the space imagery requirements of [[Europe]]an defence as well as civil and commercial needs.
+The '''Pléiades''' [[Satellite constellation|constellation]] is composed of two very-high-resolution optical [[Earth-imaging satellite]]s. '''Pléiades-1A''' and '''Pléiades-1B''' provide the coverage of Earth's surface with a repeat cycle of 26 days.<ref>"[http://smsc.cnes.fr/PLEIADES/GP_systeme.htm Pléiades System CNES]"</ref> Designed as a dual civil/military system, Pléiades will meet the space imagery requirements of European defence as well as civil and commercial needs.
 == History ==
@@ Line 62: / Line 62: @@
 == Launches ==
 * '''Pléiades-1A''' was launched via a Russian [[Soyuz-2|Soyuz ST-A]] launch vehicle of the [[Guiana Space Centre|Centre Spatial Guyanais]], [[Kourou]], [[French Guiana]], on 17 December 2011 at 02:03 [[Coordinated Universal Time|UTC]].
 * '''Pléiades-1B''' was launched via a Russian [[Soyuz-2|Soyuz ST-A]] launch vehicle of the [[Guiana Space Centre|Centre Spatial Guyanais]], [[Kourou]], [[French Guiana]], on 2 December 2012 at 02:02 UTC.<ref>{{cite news|url=https://www.reuters.com/article/us-space-france-russia-idUSBRE8B101L20121202|title=Soyuz rocket blasts off from French Guiana|work=Reuters|date=2 December 2012}}</ref><ref>{{cite web|url=http://www.forum-conquete-spatiale.fr/t14423p45-lancement-soyouz-st-a-vs04-pleiades-1b-2-decembre-2012|title=Lancement Soyouz-ST-A VS04 / Pléiades-1B|publisher=forum-conquete-spatiale.fr}}</ref>
@@ Line 70: / Line 69: @@
 |title=Pleiades eoPortal Directory|publisher=eoPortal|access-date=2015-06-04}}</ref>
 * Orbit: Sun-synchronous, phased, near-circular
-* Mean altitude: 695 km
+* Mean altitude: 695&nbsp;km
 === Equipment ===
@@ Line 77: / Line 76: @@
 === Agility for Responsive Tasking ===
 This agility coupled with particularly dynamic image acquisition programming make the Pléiades system very responsive to specific user requirements. Individual user requests was answered in record time, thanks to multiple programming plans per day and a state-of-the-art image processing chain. Performance at a glance:
-* Image acquisition anywhere within an 800-km-wide ground strip with 70 cm of resolution
+* Image acquisition anywhere within an 800-km-wide ground strip with 70&nbsp;cm of resolution
 * Along-track stereo and tri-stereo image acquisition
 * Single-pass collection of mosaics (strip-mapping) with a footprint up to a square degree
-* Maximum theoretical acquisition capacity of 1,000,000 km<sup>2</sup> per day and per satellite
+* Maximum theoretical acquisition capacity of 1,000,000&nbsp;km<sup>2</sup> per day and per satellite
-* Optimized daily acquisition capacity (taking into account genuine order book, weather constraints, conflicts...) reaching 300,000 km<sup>2</sup> per day and per satellite
+* Optimized daily acquisition capacity (taking into account genuine order book, weather constraints, conflicts...) reaching 300,000&nbsp;km<sup>2</sup> per day and per satellite
 === Products ===
@@ Line 87: / Line 86: @@
 |-
 |align="center" | '''Resolution'''
-|align="left" | Panchromatic: 50 cm
+|align="left" | Panchromatic: 50&nbsp;cm
 |-
 |
@@ Line 93: / Line 92: @@
 |-
 |
-|align="left" | Pansharpened: 50 cm
+|align="left" | Pansharpened: 50&nbsp;cm
 |-
 |
-|align="left" | Bundle: 50 cm PAN and 2 m MS
+|align="left" | Bundle: 50&nbsp;cm PAN and 2 m MS
 |-
 |align="center" | '''Footprint'''
-|align="left" | 20 km swath
+|align="left" | 20&nbsp;km swath
 |-
 |
-|align="left" | Single pass mosaics up to 100 x 100 km
+|align="left" | Single pass mosaics up to 100 x 100&nbsp;km
 |}<ref>"[http://smsc.cnes.fr/PLEIADES/A_produits.htm Pléiades Products CNES]"</ref>
 === Ground receiving stations ===
 When satellite operations begin, four ground receiving stations will be deployed for the direct downlink and archiving of imagery data:
-* Two defence centres in [[France]] and [[Spain]]
+* Two defence centres in France and Spain
 * Two civil stations: one in [[Toulouse]] (France) and a polar station in [[Kiruna]] ([[Sweden]]), which receives most of the data
@@ Line 114: / Line 113: @@
 === Uplink Stations ===
 The Pléiades tasking plan are refreshed and uploaded three times per day, allowing for last minute requests and the ability to utilize up-to-the-minute weather forecasts.<ref>"[https://web.archive.org/web/20110807080605/http://www.spotimage.com/automne_modules_files/standard/public/SM46_vo_pleiades.pdf Pléiades Responsive Stations]"</ref>
-* The [[Kerguelen Island]] station uploads the morning pass, over [[Europe]], [[Africa]] and the [[Middle East]].
+* The [[Kerguelen Island]] station uploads the morning pass, over Europe, [[Africa]] and the [[Middle East]].
 * The Swedish station takes care of midday orbits, over [[Americas|North and South Americas]].
 * The French station transmits the last tasking plan of the day over [[Asia]] and [[Oceania]].

v t e ← 2010 Orbital launches in 2011 2012 →
January	Elektro-L No.1 USA-224 Kounotori 2 Progress M-09M (Kedr)
February	Kosmos 2470 USA-225 Johannes Kepler ATV STS-133 (Leonardo) Kosmos 2471
March	Glory, Explorer-1 [Prime], KySat-1, Hermes USA-226 USA-227
April	Soyuz TMA-21 Compass-IGSO3 USA-229 Resourcesat-2, YouthSat, X-Sat Yahsat 1A, New Dawn Progress M-10M
May	Meridian 4 USA-230 STS-134 (AMS-02, ELC-3) Telstar 14R ST-2, GSAT-8 / INSAT-4G
June	Soyuz TMA-02M SAC-D Rasad 1 ChinaSat 10 Progress M-11M Kosmos 2472 USA-231
July	Shijian XI-03 STS-135 (Raffaello, PSSC-2) Tianlian I-02 Globalstar M083, Globalstar M088, Globalstar M091, Globalstar M085, Globalstar M081, Globalstar M089 GSAT-12 SES-3, KazSat-2 USA-232 Spektr-R Compass-IGSO4 Shijian XI-02
August	Juno Astra 1N, BSAT-3c/JCSAT-110R Paksat-1R Hai Yang 2A Sich 2, NigeriaSat-2, NigeriaSat-X, RASAT, EduSAT, AprizeSat-5, AprizeSat-6, BPA-2 Ekspress-AM4 Shijian XI-04 Progress M-12M
September	GRAIL-A , GRAIL-B Zhongxing-1A Kosmos 2473 Arabsat 5C, SES-2 IGS Optical 4 Atlantic Bird 7 TacSat-4 Tiangong-1 QuetzSat 1
October	Kosmos 2474 / GLONASS-M 742 Intelsat 18 Eutelsat 16A Megha-Tropiques, SRMSAT, VesselSat-1, Jugnu ViaSat-1 Galileo-IOV FM1 , Galileo-IOV FM2 NPP, AubieSat-1, DICE-1, DICE-2, M-Cubed, RAX-2 Progress M-13M Shenzhou 8
November	Kosmos 2475 , Kosmos 2476 , Kosmos 2477 Fobos-Grunt , Yinghuo-1 Yaogan 12 , Tian Xun-1 Soyuz TMA-22 Shiyan Weixing 4 , Chuang Xin 1C AsiaSat 7 Mars Science Laboratory (Curiosity) Kosmos 2478 Yaogan 13
December	Compass-IGSO5 Amos-5, Luch 5A IGS Radar 3 Pléiades-HR 1A, SSOT, ELISA 1, ELISA 2, ELISA 3, ELISA 4 NigComSat-1R Soyuz TMA-03M Ziyuan-1C Meridian 5 Globalstar M080, Globalstar M082, Globalstar M084, Globalstar M086, Globalstar M090, Globalstar M092
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).

v t e ← 2011 Orbital launches in 2012 2013 →
January	Ziyuan III-01, VesselSat-2 Fengyun 2-07 USA-233 Progress M-14M
February	Navid LARES, ALMASat-1, Xatcobeo, UniCubeSat-GG, ROBUSTA, e-st@r, Goliat, MaSat-1, PW-Sat SES-4 Compass-G5 MUOS-1
March	Edoardo Amaldi ATV Intelsat 22 Kosmos 2479 Apstar 7
April	USA-234 Kwangmyŏngsŏng-3 Progress M-15M YahSat-1B RISAT-1 Compass-M3, Compass-M4
May	USA-235 Tianhui 1B Yaogan 14, Tiantuo 1 Soyuz TMA-04M JCSAT-13, Vinasat-2 Kosmos 2480 Shizuku, Kompsat 3, SDS-4, Horyu 2 Nimiq 6 SpaceX COTS Demo Flight 2, New Frontier Fajr ChinaSat 2A Yaogan 15
June	Intelsat 19 NuSTAR Shenzhou 9 USA-236 / Quasar 18 USA-237 / Orion 8
July	EchoStar XVII, MSG-3 SES-5 Soyuz TMA-05M Kounotori 3 (Raiko, We-Wish, Niwaka, TechEdSat, F-1) Kanopus-V1, BelKA-2, Zond-PP, TET-1, exactView-1 Tianlian I-03 Gonets-M No.3, Gonets-M No.4, Kosmos 2481, MiR
August	Progress M-16M (Sfera-53) Intelsat 20, HYLAS 2 Telkom-3, Ekspress-MD2 Intelsat 21 RBSP-A, RBSP-B
September	SPOT 6, PROITERES, mRESINS USA-238, SMDC-ONE 1.1, SMDC-ONE 1.2, AeroCube 4, AeroCube 4A, AeroCube 4B, Aeneas, Re, CSSWE, CP5, CXBN, CINEMA 1 MetOp-B Compass-M5, Compass-M6 Astra 2F, GSAT-10 VRSS-1
October	USA-239 SpaceX CRS-1, Orbcomm-2 David, Sif Shijian 9-01, Shijian 9-02 Intelsat 23 Soyuz TMA-06M Compass G6 Progress M-17M
November	Luch 5B, Yamal-300K Eutelsat 21B, Star One C3 Meridian 6 Huanjing 1C EchoStar XVI Yaogan 16A, Yaogan 16B, Yaogan 16C ChinaSat 12
December	Pléiades-HR 1B Eutelsat 70B Yamal-402 USA-240 Kwangmyŏngsŏng-3 Unit 2 Göktürk-2 Soyuz TMA-07M Skynet 5D, Mexsat Bicentenario
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).