Ben Lane, ExoAnalytic Solutions, Mark W. Jeffries Jr, ExoAnalytic Solutions, William Therien, ExoAnalytic Solutions, Hung Nguyen, ExoAnalytic Solutions
Keywords: SSA, Automation, Small Telescope, Big Data, Optimization
Abstract:
As the number of man-made objects placed in space each year increases with advancements in commercial, academic and industry, the number of objects required to be detected, tracked, and characterized continues to grow at an exponential rate. Commercial companies, such as ExoAnalytic Solutions, have deployed ground based sensors to maintain track custody of these objects. For the ExoAnalytic Global Telescope Network (EGTN), observation of such objects are collected at the rate of over 10 million unique observations per month (as of September 2017). Currently, the EGTN does not optimally collect data on nights with significant cloud levels. However, a majority of these nights prove to be partially cloudy providing clear portions in the sky for EGTN sensors to observe. It proves useful for a telescope to utilize these clear areas to continue resident space object (RSO) observation. By dynamically updating the tasking with the varying cloud positions, the number of observations could potentially increase dramatically due to increased persistence, cadence, and revisit.
Date of Conference: September 19-22, 2017
Track: Poster