Primary mirror control for large segmented telescopes: combining high performance with robustness

conference paper
2016
Witvoet, G.

Doelman, N.J.

Breeje, R. den
Future large telescopes, such as E-ELT and TMT, will need feedback control of the thousands of actuators underneath their segmented primary mirrors (M1). Differences in actuator dynamics and spatially and temporally changing disturbances make it extremely diffcult to formulate classical controllers which are both suffciently robust and highly performing. Therefore, TNO has developed and tested a control approach, in which the actual system response is quickly measured, disturbances are continuously estimated and the controller is adapted in real-Time. The algorithm is tested on an actual M1-relevant setup, in which it converges to a sub-nm optimum within a few minutes, keeps track of changing disturbances and shows its reliability over multiple days.
Topics
Adaptive controlE-ELTFeedback controlAirborne telescopesFeedback controlRobust controlActuator dynamicsClassical controllersLarge telescopesPosition actuatorsSegmented mirrorSegmented primary mirrorsSegmented telescope
TNO Identifier
575362
Repository link
https://resolver.tno.nl/uuid:20234e93-e5aa-46cd-bade-44ace8c0d3d6
ISSN
0277786X
ISBN
9781510601918
Publisher
SPIE
Article nr.
990611
Source title
Ground-Based and Airborne Telescopes VI, Edinburgh, Scotland, UK, 26 June - 1 July 2016
Editor(s)
Marshall, H.K.
Hall, H.J.
Gilmozzi, R.
Files