|Mission type||Earth observation|
|Mission duration||3 years (planned)|
|Launch mass||6,570 kilograms (14,480 lb)|
|Dimensions||7.93 by 2.72 metres (26.0 × 8.9 ft)|
|Start of mission|
|Launch date||15 June 2006, 08:00UTC|
|Launch site||Baikonur 1/5|
|Semi-major axis||6,937.01 kilometres (4,310.46 mi) |
|Perigee||562 kilometres (349 mi)|
|Apogee||570 kilometres (350 mi)|
|Epoch||29 November 2013, 18:44:25 UTC|
|Geoton-1, PAMELA, ARINA|
Resurs-DK No.1, often incorrectly translated as Resurs-DK1 is a commercial Earth observation satellite capable of transmitting high-resolution imagery (up to 0.9 m) to the ground stations as it passes overhead. The spacecraft is operated by NTs OMZ, Russian Research Center for Earth Operative Monitoring.
The satellite is designed for multi-spectral remote sensing of the Earth's surface aimed at acquiring high-quality visible images in near real-time as well as on-line data delivery via radio link and providing a wide range of consumers with value-added processed data.
The Resurs-DK spacecraft was built by the Russian space company TsSKB Progress in Samara, Russia. It is a modified version of the military reconnaissance satellite Yantar-4KS1 (Terilen). The spacecraft is three-axis stabilized. The design lifetime is no less than three years, with an expected lifetime of five years. Ground location accuracy is 100 metres (330 ft). Onboard storage is 768 gigabits. Data link speed to the ground station is 300 Mbit/s. Maximum daily productivity is 1,000,000 square kilometres (390,000 sq mi).
- Type: apochromatic telephoto
- Focal length: 4000 mm
- Objective diameter: 500 mm
- Spectral range: 0.5-0.9 µm
- Mass: 310 kg
- 0.58-0.8 µm panchromatic
- 0.5-0.6 µm green
- 0.6-0.7 µm red
- 0.7-0.8 µm visible near IR (near infrared)
It is not possible to represent an image in true-color because there is no blue band (0.4 - 0.5 µm). However, it is possible to combine red, green and near IR in such way that the appearance of the displayed image resembles a visible colour photograph, i.e. vegetation in green, water in blue, soil in brown. This is not always possible because two similarly coloured objects can have completely different reactions to near IR light.
Green, red and near IR are typically combined to make a traditional false color composite where the near IR is displayed in red, the red is displayed in green, and the green is displayed in blue. This combination is favoured by scientists because near IR is useful for detection of numerous vegetation types. Vegetation appear as redtones, the brighter the red, the healthier the vegetation. Soils with no or sparse vegetation range from white (sand, salt) to greens or browns depending on moisture and organic matter content. Water appears blue, clear water is dark blue to black while shallow waters or waters with high sediment concentrations are lighter blue. Urban areas will appear blue towards gray. Clouds and snow are white.
Focal Plane Unit
Unit features 4 TDI (Time Delay and Integration) sensor arrays, one panchromatic and three multispectral. Each sensor array is composed of 36 "Kruiz" CCD chips. Effective length of the single array is about 36000 pixels. Arrays are grouped in 3 separated lines:
- near IR
- panchromatic and red
This separation is causing a time delay of the colour images combined from green, red and near IR, so fast moving objects are shown in triplets. Moving object speed and direction can be calculated. All 4 arrays can work simultaneously, so it is possible to combine panchromatic and 3 multispectral images in one pansharpened color composite.
System use 10-bit ADC
Focal Plane Unit is made by NPO Opteks, Russia 
- Pixel size: 9 x 9 µm
- Number of TDI stages electronically selectable: 128, 64, 32, 16, 8
- Two readout shift registers and two output amplifiers allowing twice faster readout
- Selftest without illumination
- Full well capacity: 120 000 electrons
- Dynamic range: 2500
- Charge transfer efficiency in any direction: more than 0.99998 per transfer
- Maximum quantum efficiency: 0.33 (at 0.72 µm).
Designed jointly by NPO Opteks and ELECTRON-OPTRONIC.
Produced by ELECTRON-OPTRONIC (now is ELAR )
At the altitude of 360 km
- Nadir: 0.9 m
- 30 degrees tilt: 1.0 m
At the altitude of 604 km
- Nadir: 1.5 m
- 30 degrees tilt: 1.7 m
1.5–2 m 
The revisit rate is 5 to 7 days off-nadir.
Swath width at the altitude of 350 km:
- 4.7 - 28.3 km (at nadir)
- 40 km (at ±30°)
Russian research hardware for detection of high-energetic electrons and protons, their identification, detection of high-energetic particles bursts – earthquake signs.
- Mass: 9 kg
PAMELA Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics is an attached module built by Italian researchers with international partners. Its purpose is basic physics research of primary cosmic rays.
- Mass: 470 kg
Major Current Tasks
- Data supply for resource management and economical activity (inventory of natural resources, topographic and thematic mapping).
- Monitoring of pollution sources of the atmosphere, water and soil with the view of providing Federal and regional environmental authorities with the relevant information to make management decisions.
- On-line monitoring of man-caused and natural emergencies for the purpose of effective planning and timely performing of measures to eliminate damages.
- Supplying home and foreign consumers on a commercial basis.
- Research activities (PAMELA and ARINA experiments).
Major orbit change
The satellite was initially placed in a 355 by 573 kilometres (221 × 356 mi) orbit in 2006. On 10 September 2010, its orbit was circularised to 567 by 573 kilometres (352 × 356 mi), with an inclination of 69.9 degrees.
- "RESURS-DK1 Spacecraft". Ntsomz.ru. Russian Federal Space Agency. 18 November 2008. Retrieved 12 August 2011.
- "Yantar-4KS1". Encyclopedia Astronautica. Retrieved 12 August 2011.
- "Resurs DK-1 satellite details". N2YO.com. Retrieved 12 August 2011.
- "Resurs-DK1 (Resurs - High Resolution 1)". EOPortal.org. Retrieved 12 August 2011.[dead link]
- Peat, Chris (29 November 2013). "RESURS DK-1 - Orbit". Heavens-Above. Retrieved 30 November 2013.
- McDowell, Jonathan (17 June 2006). "Issue 565". Jonathan's Space Report. Retrieved 29 June 2013.
- "Yantar-4KS1". Astronautix.com. Retrieved 12 August 2011.