GeoEye-1

*GeoEye-1*
	Launch of Delta II rocket carrying GeoEye-1
Names	OrbView-5
Mission type	Earth observation
Operator	Maxar Technologies ; (formerly GeoEye)
COSPAR ID	2008-042A
SATCAT no.	33331
Mission duration	Planned: 7 years; Elapsed: 16 years, 5 months, 16 days
Spacecraft properties
Bus	SA-200HP
Manufacturer	General Dynamics
Launch mass	1,955 kg (4,310 lb)
Payload mass	452 kg (996 lb)
Dimensions	4.35 × 2.7 m (14.3 × 8.9 ft) (arrays stowed)
Power	3,862 watts
Start of mission
Launch date	6 September 2008, 18:50:57 UTC
Rocket	Delta II 7420-10, D-335
Launch site	Vandenberg SLC-2W
Contractor	Boeing / United Launch Alliance
Orbital parameters
Reference system	Geocentric
Regime	Sun-synchronous
Semi-major axis	7,057 km (4,385 mi)
Eccentricity	0.000879
Perigee altitude	673 km (418 mi)
Apogee altitude	685 km (426 mi)
Inclination	98.12 degrees
Period	98.34 minutes
RAAN	347.09 degrees
Argument of perigee	221.37 degrees
Epoch	30 September 2018, 16:31:21 UTC
Main telescope
Diameter	1.1 m (3.6 ft)
Focal length	13.3 m (44 ft)
Resolution	Panchromatic: 41 cm (16 in) ; Multispectral: 165 cm (65 in)
Transponders
Bandwidth	X band: 150 or 740 Mbps
	DigitalGlobe fleet ← WorldView-1 WorldView-2 →

Last updated February 23, 2025

GeoEye-1 is a high-resolution Earth observation satellite owned by Maxar Technologies (formerly DigitalGlobe), launched in September 2008. The satellite was acquired in the 2013 purchase of GeoEye.

History

On 1 December 2004, General Dynamics C4 Systems announced it had been awarded a contract worth approximately US$209 million to build the OrbView-5 satellite.^[8] Its sensor is designed by the ITT Exelis.

The satellite, now known as GeoEye-1, was originally scheduled for launch in April 2008 but lost its 30-day launch slot to a U.S. government mission which had itself been delayed. It was rescheduled for launch 22 August 2008 from Vandenberg Air Force Base aboard a Delta II launch vehicle.^[9] The launch was postponed to 4 September 2008, due to unavailability of the Big Crow telemetry-relay aircraft.^[10]^[11] It was delayed again to 6 September because Hurricane Hanna interfered with its launch crews.

The launch took place successfully on 6 September 2008 at 18:50:57 UTC. The GeoEye-1 satellite separated successfully from its Delta II launch vehicle at 19:49 UTC, 58 minutes and 56 seconds after launch.^[5]

Specifications and operation

GeoEye-1 provides 0.41 m (16 in) panchromatic and 1.65 m (5.4 ft) multispectral imagery at nadir in 15.2 km (9.4 mi) swaths. The spacecraft is in a Sun-synchronous orbit at an altitude of 681 km (423 mi) and an inclination of 98 degrees, with a 10:30 a.m. equator crossing time.^[3]^[12]^[13]GeoEye-1 can image up to 60 degrees off nadir. It is operated out of Dulles, Virginia.^[14]

At the time of its launch, GeoEye-1 was the world's highest resolution commercial Earth-imaging satellite.^[15]GeoEye-1 was manufactured in Gilbert, Arizona, by General Dynamics and the first image was returned on 7 October of Kutztown University in Pennsylvania.^[16]

Google, which had its logo on the side of the rocket, has exclusive online mapping use of its data. While GeoEye-1 is capable of imagery with details the size of 41 centimeters per pixel (16 in/px), that resolution was only available to the U.S. government. Google has access to details of 50 cm per pixel (20 in/px). Prior maximum commercial imagery was 60 cm (24 in).^[17]

The National Geospatial-Intelligence Agency and Google paid a combined US$502 million for the satellite and upgrades to GeoEye's four ground stations.^[18]

2009 anomaly

In December 2009 GeoEye announced it had suspended imagery collections by GeoEye-1 for a few days, citing an irregularity in the downlink antenna. "The irregularity appears to limit the range of movement of GeoEye-1's downlink antenna, which may in turn affect GeoEye-1's ability to image and downlink simultaneously," GeoEye said at a press conference.^[19] However, the satellite continued with normal operations shortly thereafter, though with diminished simultaneous imaging-and-downlink capability for non-U.S. clients.^[20]

References

↑ "UCS Satellite Database". Union of Concerned Scientists. 1 September 2013. Archived from the original on 4 January 2014. Retrieved 22 January 2014.
↑ "GeoEye 1". Gunter's Space Page. Retrieved 13 October 2016.
1 2 3 4 5 "GeoEye Satellite Imagery". Apollo Mapping. 2018.
1 2 3 McDowell, Jonathan. "Launch Log". Jonathan's Space Page. Retrieved 22 January 2014.
1 2 Ray, Justin. "Delta 335: Mission Status Center". Spaceflight Now. Archived from the original on 20 November 2008.
↑ Peat, Chris (30 September 2018). "GEOEYE 1 - Orbit". Heavens-Above. Retrieved 30 September 2018.
1 2 3 Moos, Warren; Eisenstein, Daniel (30 January 2007). "Advanced Dark Energy Physics Telescope (ADEPT)" (PDF). National Academies. Archived from the original (PDF) on 9 November 2008.
↑ Jacques, Fran (1 December 2004). "General Dynamics to Build Satellite to Improve U.S. Government Access to High-Resolution Earth Imagery" (Press release). General Dynamics. Archived from the original on 28 September 2011.
↑ "GeoEye-1 Launch Details". GeoEye. Archived from the original on 17 October 2008.
↑ Goldfarb, Zachary A. (14 August 2008). "Restatement Pulls GeoEye's Goals Back Down to Earth". Washington Post.
↑ Ray, Justin (12 August 2008). "Delta 2 rocket launch of GeoEye craft postponed". Spaceflight Now. Retrieved 14 August 2008.
↑ Paradella, Waldir Renato; Cheng, Philip (January–February 2013). "Automatic DEM Generation Using GeoEye-1 Stereo Data in Mining Application". GeoInformatics. 16: 10–12.
↑ Cheng, Philip (July–August 2014). "Mapping Large Areas: Satellite Imageries with Limited Ground Control". GeoInformatics: 18–20. S2CID 14100742.
↑ "GeoEye-1 Gives Google Highest Resolution Imagery". University of California, Santa Barbara. 10 September 2008. Retrieved 22 February 2025.
↑ Fernandez, Chris (11 July 2008). "GeoEye-1 Launch Continues On Track". Seeking Alpha.
↑ Chen, Brian X. (7 October 2008). "Google's Super Satellite Captures First Image". Wired.
↑ Shankland, Stephen (29 August 2008). "Google to buy GeoEye satellite imagery". CNet.
↑ Rothman, Wilson (8 October 2008). "Google GeoEye-1 Satellite Takes First Pic (Is that Your House?)". Gizmodo.
↑ Sharma, Divya (17 December 2009). "GeoEye says satellite glitch could hit 2010 revenue". Reuters.
↑ "GeoEye-1". eoPortal. European Space Agency. Retrieved 13 October 2016.

External links

GeoEye-1 at Digitalglobe.com

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
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[UCS-1] "UCS Satellite Database". Union of Concerned Scientists. 1 September 2013. Archived from the original on 4 January 2014. Retrieved 22 January 2014.

[gunters-2] "GeoEye 1". Gunter's Space Page. Retrieved 13 October 2016.

[apollomapping-3] 1 2 3 4 5 "GeoEye Satellite Imagery". Apollo Mapping. 2018.

[launchlog-4] 1 2 3 McDowell, Jonathan. "Launch Log". Jonathan's Space Page. Retrieved 22 January 2014.

[sfn335status-5] 1 2 Ray, Justin. "Delta 335: Mission Status Center". Spaceflight Now. Archived from the original on 20 November 2008.

[heavens-above-6] Peat, Chris (30 September 2018). "GEOEYE 1 - Orbit". Heavens-Above. Retrieved 30 September 2018.

[adept-7] 1 2 3 Moos, Warren; Eisenstein, Daniel (30 January 2007). "Advanced Dark Energy Physics Telescope (ADEPT)" (PDF). National Academies. Archived from the original (PDF) on 9 November 2008.

[8] Jacques, Fran (1 December 2004). "General Dynamics to Build Satellite to Improve U.S. Government Access to High-Resolution Earth Imagery" (Press release). General Dynamics. Archived from the original on 28 September 2011.

[9] "GeoEye-1 Launch Details". GeoEye. Archived from the original on 17 October 2008.

[10] Goldfarb, Zachary A. (14 August 2008). "Restatement Pulls GeoEye's Goals Back Down to Earth". Washington Post.

[11] Ray, Justin (12 August 2008). "Delta 2 rocket launch of GeoEye craft postponed". Spaceflight Now. Retrieved 14 August 2008.

[Paradella2013-12] Paradella, Waldir Renato; Cheng, Philip (January–February 2013). "Automatic DEM Generation Using GeoEye-1 Stereo Data in Mining Application". GeoInformatics. 16: 10–12.

[Cheng2014-13] Cheng, Philip (July–August 2014). "Mapping Large Areas: Satellite Imageries with Limited Ground Control". GeoInformatics: 18–20. S2CID 14100742.

[ucsbgeography-14] "GeoEye-1 Gives Google Highest Resolution Imagery". University of California, Santa Barbara. 10 September 2008. Retrieved 22 February 2025.

[15] Fernandez, Chris (11 July 2008). "GeoEye-1 Launch Continues On Track". Seeking Alpha.

[16] Chen, Brian X. (7 October 2008). "Google's Super Satellite Captures First Image". Wired.

[17] Shankland, Stephen (29 August 2008). "Google to buy GeoEye satellite imagery". CNet.

[18] Rothman, Wilson (8 October 2008). "Google GeoEye-1 Satellite Takes First Pic (Is that Your House?)". Gizmodo.

[19] Sharma, Divya (17 December 2009). "GeoEye says satellite glitch could hit 2010 revenue". Reuters.

[eoportal-20] "GeoEye-1". eoPortal. European Space Agency. Retrieved 13 October 2016.

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v t e Maxar Technologies
Subsidiaries	DigitalGlobe GeoEye GlobeXplorer MDA Space Missions Spar Aerospace SSL
People	John S. MacDonald
Products	Canadarm Dextre GeoEye-1 Ikonos Lunar Gateway Mobile Servicing System QuickBird Radarsat-1 Radarsat-2 Tomnod WorldView-1 WorldView-2 WorldView-3 WorldView-4

v t e ITT Corporation
Related companies	Abbey Life American Cable and Radio Corporation Bell Telephone Manufacturing Company C. Lorenz Cannon Claro Puerto Rico Commercial Cable Company Commercial Pacific Cable Company Creed & Company EDO Corporation Exelis Visual Information Solutions Federal Telegraph Company Flygt Focke-Wulf Goulds Pumps ITT Exelis ITT Technical Institute Kellogg Switchboard & Supply Company Kolster-Brandes Mix & Genest Rayonier Sheraton Hotels and Resorts Standard Telecommunication Laboratories Standard Telephones and Cables The Hartford WPXN-TV Xylem Inc.
Key people	Sosthenes Behn Hernán Behn William Henry Harrison Harold Geneen John William Mackay Rand Araskog Ellery W. Stone
Media	The Sovereign State ITT: The Management of Opportunity The ITT Wars
Products	GeoEye-1 ITT System 12 ITT 2020

v t e ← 2007 Orbital launches in 2008 2009 →
January	Thuraya 3 TecSAR Ekspress AM-33
February	Progress M-63 STS-122 (Columbus) Thor 5 Kizuna
March	Jules Verne ATV STS-123 (Kibō ELM-PS, Dextre, Spacelab MD002) USA-200 AMC-14 USA-201 DirecTV-11 SAR-Lupe 4
April	Soyuz TMA-12 ICO G1 C/NOFS Vinasat-1, Star One C2 Tianlian I-01 GIOVE-B Cartosat-2A, Rubin-8, AAUSat-2 , CanX-2 , CanX-6 , Compass-1 , CUTE-1.7 + APD II , Delfi-C3 , SEEDS-2 Amos-3
May	Progress M-64 Galaxy 18 Kosmos 2437, Kosmos 2438, Kosmos 2439, Yubileiny Fengyun 3A STS-124 (Kibō PM)
June	ChinaSat 9 Fermi Skynet 5C, Türksat 3A Orbcomm FM29, Orbcomm FM37, Orbcomm FM38, Orbcomm FM39, Orbcomm FM40, Orbcomm FM41 OSTM/Jason-2 Kosmos 2440
July	Badr-6, ProtoStar 1 EchoStar XI SAR-Lupe 5 Kosmos 2441
August	Trailblazer, NanoSail-D, PRESat, Explorers Superbird-C2, AMC-21 Omid Inmarsat-4 F3 Tachys, Mati, Choma, Choros, Trochia
September	Huan Jing 1A, Huan Jing 1B GeoEye-1 Progress M-65 Nimiq-4 Galaxy 19 Kosmos 2442, Kosmos 2243, Kosmos 2444 Shenzhou 7 (Banxing-1) Ratsat
October	THEOS Soyuz TMA-13 IBEX Chandrayaan-1 (MIP) Shijian 6E, Shijian 6F COSMO-3 Venesat-1
November	Chuang Xin 1B, Shiyan Weixing 3 Astra 1M Kosmos 2445 STS-126 (Leonardo MPLM, PSSC-1) Progress M-01M
December	Yaogan 4 Kosmos 2446 Yaogan 5 Hot Bird 9, Eutelsat W2M Fengyun 2E Kosmos 2447, Kosmos 2448, Kosmos 2449
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).

GeoEye-1

Contents

History

Specifications and operation

2009 anomaly

See also

References

External links

Spacecraft properties
Launch of Delta II rocket carrying GeoEye-1
Names	OrbView-5

Mission type	Earth observation
Operator	Maxar Technologies (formerly GeoEye)
COSPAR ID	2008-042A
SATCAT no.	33331
Mission duration	Planned: 7 years^[1] Elapsed: 16 years, 5 months, 16 days


Bus	SA-200HP^[2]
Manufacturer	General Dynamics
Launch mass	1,955 kg (4,310 lb)^[3]
Payload mass	452 kg (996 lb)^[3]
Dimensions	4.35 × 2.7 m (14.3 × 8.9 ft) (arrays stowed)^[3]
Power	3,862 watts^[3]


Start of mission
Launch date	6 September 2008, 18:50:57 (2008-09-06UTC18:50:57) UTC^[4]
Rocket	Delta II 7420-10, D-335^[4]
Launch site	Vandenberg SLC-2W ^[4]
Contractor	Boeing / United Launch Alliance ^[5]


Orbital parameters
Reference system	Geocentric
Regime	Sun-synchronous
Semi-major axis	7,057 km (4,385 mi)
Eccentricity	0.000879
Perigee altitude	673 km (418 mi)
Apogee altitude	685 km (426 mi)
Inclination	98.12 degrees
Period	98.34 minutes
RAAN	347.09 degrees
Argument of perigee	221.37 degrees
Epoch	30 September 2018, 16:31:21 UTC ^[6]


Main telescope
Diameter	1.1 m (3.6 ft)^[7]
Focal length	13.3 m (44 ft)^[7]
Resolution	Panchromatic: 41 cm (16 in) Multispectral: 165 cm (65 in)


Transponders
Bandwidth	X band: 150 or 740 Mbps^[7]

DigitalGlobe fleet ← WorldView-1 WorldView-2 →