Optimization Framework for Large Space-Based Telescopes

“…14 Thus, to verify the performance of the model, both current and planned non-assembled telescope missions are evaluated. As shown in, 15 a few key assumptions were required to validate this model was performing as expected: both science return and complexity generally increase as primary mirror diameter increases, and cryogenic operating temperatures significantly increase mission complexity. This model does not capture, however, the relative challenges of manufacturing a monolithic mirror and telescope versus deploying a mirror and telescope versus assembling the mirror and telescope in space.…”

A systems framework for space-based telescope design trade space exploration under uncertainty

“…14 Thus, to verify the performance of the model, both current and planned non-assembled telescope missions are evaluated. As shown in, 15 a few key assumptions were required to validate this model was performing as expected: both science return and complexity generally increase as primary mirror diameter increases, and cryogenic operating temperatures significantly increase mission complexity. This model does not capture, however, the relative challenges of manufacturing a monolithic mirror and telescope versus deploying a mirror and telescope versus assembling the mirror and telescope in space.…”

A systems framework for space-based telescope design trade space exploration under uncertainty