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Ground-Based Electro-Optical Deep Space Surveillance

Ground-Based Electro-Optical Deep Space Surveillance sites, such as Detachment 2,  Diego Garcia, British Indian OceanTerritory shown here, play a vital role in tracking deep space objects.

Ground-Based Electro-Optical Deep Space Surveillance sites, such as Detachment 2, Diego Garcia, British Indian OceanTerritory shown here, play a vital role in tracking deep space objects.

Mission

The Ground-Based Electro-Optical Deep Space Surveillance (GEODSS) System plays a vital role in tracking deep space objects. More than 2,500 objects, including geostationary communication satellites, are in deep space orbits varying in altitude from 10,000 to 45,000 kilometers from earth. 

Approximately 25,000 known man-made objects orbit the earth. These objects range from active payloads, such as weather monitoring satellites or Global Positioning System satellites, to “space junk” such as rocket bodies from previous satellite launches or debris from past satellite breakups. 

The 21st Space Wing is responsible for tracking all man-made objects in orbit. The 21 SW receives positional tracking data, known as metric observations, from the Space Surveillance Network (SSN) which is comprised of optical and radar sensors throughout the world. This enables the 21 SW to maintain accurate data on many man-made objects currently in orbit. 

There are three 21 SW operational GEODSS sites in the SSN located in the U.S. and U.S. Indo-Pacific Command.

Features

GEODSS performs its mission using one-meter telescopes that are equipped with highly sensitive digital camera technology, developed under a program known as Deep STARE. Each operational GEODSS site has three telescopes that are used in conjunction with each other or separately. These telescopes are able to “see” objects 10,000 times dimmer than the human eye can detect.

The GEODSS’ camera system is able to track multiple satellites in the field of view. The telescopes take rapid electronic snapshots of satellites in the night sky, showing up on the operator’s console as tiny streaks. Computers then measure these streaks and use the data to compute the position of satellites in their orbits. Star images, which remain fixed, are used as reference or calibration points for each of the three telescopes. The resulting metric observation data is then sent instantaneously to the 21 SW for the management of the satellite catalog databases. 

Background

The GEODSS system has been an important piece of the space situational awareness mission since the early 1980s. Over the years, the GEODSS systems have undergone several refurbishments and upgrades, the most significant being the addition of cameras. In 2005, each site began using the cameras. This upgrade provided the sites with some of the most accurate and sensitive optical telescopes in the world. The GEODSS system can track objects as small as a basketball more than 20,000 miles away and is a vital part of AFSPC’s SSN.

(Current as of July 2019)