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AuthorsNumbers in the index correspond to the last two digits of the six-digit citation identifier (CID) article numbering system used in Proceedings of SPIE. The first four digits reflect the volume number. Base 36 numbering is employed for the last two digits and indicates the order of articles within the volume. Numbers start with 00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 0A, 0B...0Z, followed by 10-1Z, 20-2Z, etc. Balster, Harry, 06 Bettonvil, Felix, 06 Bloemen, Steven, 06 Bonnet, Henri, 0A Braam, Ben, 03 de Haan, Menno, 06 Deng, Yuanyong, 04 Di Varano, I., 08 Dolron, Peter, 06 Eberhard, Peter, 0C Engels, Arno, 06 Esselborn, Michael, 0A Fu, Yu, 05 Gardiol, Daniele, 07, 09 Giro, Enrico, 07 Groot, Paul, 06 Hamelinck, Roger, 03 Jakob, G., 02 Ji, Haisheng, 04 Jin, Zhenyu, 04, 05 Klein Wolt, Marc, 06 Kragt, Jan, 06 Laux, U., 08 Le Louarn, Miska, 0A Lessio, Luigi, 07 Lin, Jun, 04 Liu, Zhong, 04 Loreggia, Davide, 07, 09 Madec, Pierre-Yves, 0A Marchetti, Enrico, 0A Moschetti, M., 0B, 0D Müller, M., 02 Navarro, Ramon, 06 Nelemans, Gijs, 06 Nijenhuis, Jan, 03 Paalberends, Willem Jelle, 06 Pal, Sari, 06 Raskin, Gert, 06 Riva, M., 0B, 0D Rodeghiero, Gabriele, 07 Roelfsema, Ronald, 06 Russo, Federico, 07 Rutten, Harrie, 06 Scheers, Bart, 06 Schuil, Menno, 06 Sedghi, B., 02 Störkle, Johannes, 0C Strassmeier, K. G., 08 Sybilski, Piotr, 06 ter Horst, Rik, 06 van Elteren, Arjen, 06 Woche, M., 08 Yuan, Shu, 05 Conference CommitteeConference Chair Program Committee
Session Chairs
IntroductionThe importance of integrated modeling in optomechanical (also called STOP: Structural Thermal Optical) systems in design analysis has grown significantly over the last decades. This is mainly because of:
Space- and ground-based projects have different approaches and different practices. Space projects need a detailed modeling almost from the very beginning of the project. During the development of the project itself (STM-EQM, etc.), the model is updated according to the test results in order to better predict the full performances and thus define compliances vs. requirements. As a result, the discrepancies diminish significantly throughout the development of the project. Such a procedure also helps in the modeling of future projects as it leads to the acquisition of a well-defined expertise. The approach to ground-based projects has been slightly different up to now: the modeling contributes to the design and configuration of the system, but the test results rarely lead to the updating of the model in order to have better fidelity. It is important for all the scientists and engineers involved to understand the necessity to also fix the models of ground-based projects. Then the end-to-end models and calibration tools would be more efficient as well. A fully detailed model is, itself, still not the complete answer. Starting with simplified models (i.e. equation-based) may require more work, but could help to better understand complex models. Complexity should be added step by step after validation and completion of previous milestones. The aim of Integrated Modeling of Complex Optomechanical Systems II was to bring together people working in the ground- and space-based telescopes and instruments sectors to discuss ideas related to integrated modeling. Its focus was on the assessment of possible achievements obtained thanks to this approach in system engineering and design activities. The workshop allowed the participants to share their knowledge and its positive outcome highlighted the importance of involving a wider network of engineers in the discussion. Marco Riva Standing, from left:
Kneeling, from right: |
