Resident Space Object

A Resident Space Object (RSO) is a natural or artificial object that orbits another body e.g. Sun Orbiting, Earth Orbiting, Mars Orbiting etc. It is most often used to reference objects that are Earth orbiting. In the case of Earth orbiting the possible orbit classifications for an object are: Low Earth orbit (LEO), Medium Earth orbit (MEO), High Earth orbit (HEO) or Geosynchronous Earth orbit (GEO).[1]

Identification of RSOs

RSO acquisition, tracking, and data collection can be extremely challenging.[2] The primary method for gathering this information is to make a direct observation of an RSO via Space surveillance sensors. However the system is not foolproof and RSOs can become lost to the tracking system. Additionally not all new objects are acquired in a timely fashion which means that these new objects, in addition to the lost RSOs, results in uncorrelated detections when they are finally observed. Since space-missions have been increasing over the years the number of uncorrelated targets is at an all-time high.[3]

Cataloging

A number of international agencies endeavor to maintain catalogs of the man-made resident space objects (RSOs) currently orbiting the Earth.[3] One example would be the Two-line element set public catalog.[4]

gollark: If you're buying a Ryzen 5 2600, then you need DDR4 DIMMs, and higher-speed (>=2933MT/s) is recommended.
gollark: That might be hard since I don't really have electronic components at home, but I'm sure i have an LED or something.
gollark: What if I find a diode somewhere and put it on a shrine? WHAT THEN?!?!?
gollark: The others do sort of, since people talk about them on here. We also have emojis: <:diode:694648592916283463> <:diode_superiority:694649066717446144> <:Transistor:694654534634569809>
gollark: It doesn't *physically exist*, though.

References

  1. "Towards an Artificial Space Object Taxonomy" (PDF). AMOS. 2013.
  2. "A New Approach to Space Situational Awareness using Small Ground-Based Telescopes" (PDF). Pacific Northwest National Laboratory. December 2014.
  3. Hobson, T.; Gordon, N.; Clarkson, I.; Rutten, M.; Bessell, T. (2015). "Dynamic Steering for Improved Sensor Autonomy and Catalogue Maintenance". Advanced Maui Optical and Space Surveillance Technologies Conference: 47. Bibcode:2015amos.confE..47H.
  4. "Technique for GEO RSO Station Keeping Characterization and Maneuver Detection" (PDF). AMOS. 2015.
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