تحلیل اثر دما بر رفتار دینامیکی غیرخطی چرخ عکس‌العملی ماهواره با استفاده از روش اغتشاشات

[1] Narayan S., Nair P., Ghosal A., Dynamic interaction of rotating momentum wheels with spacecraft elements. Journal of Sound and Vibration, Vol. 315, pp. 970-984, 2008.

[2] Kamesh D., Pandiyan R., Ghosal A., Modeling, design and analysis of low frequency platform for attenuating micro-vibration in spacecraft. Journal of Sound and Vibration, Vol. 329, pp. 3431–3450, 2010.

[3] Bely P. Y., Lupie O. L., Hershey J. L.,The line-of-sight jitter of the Hubble Space Telescope, Space Astronomical Telescopes and Instruments II, Orlando, USA, 1993.

[4] Bialke B., Microvibration disturbance fundamentals for rotating mechanisms, 34th  AAS Guidance and Control Conference, Breckenridge, USA, 2011.

[5] Hahn R., Seiler R., Simulating and analysisng the microvibration signature of reaction wheels for future non-intrusive healthmonitoring methods, Proceedings 14th European Space Mechanisms & Tribology Symposium, Konstanz, Germany, 2011.

[6] Kim D., Oh S., Yong K., Yang K., Micro-vibration model and parameter estimation method of a reaction wheel assembly. Journal of Sound and Vibration, Vol. 333, pp. 4214–4231, 2014.

[7] Zhang Z., Development and validation of microvibration models for a satellite reaction wheel assembly, Ph.D. dissertation, University of Southampton, 2013.

[8] Kim D., Oh S., Yong K., Yang K., Numerical study on a reaction wheel and wheel-disturbance modeling.  Journal of the Korean Society for Aeronautical and Space Sciences, Vol. 38, pp. 702–708, 2010.

[9] Masterson R. A., Development and validation of empirical and analytical reaction wheel disturbance models, M.Sc. Thesis, University of MIT, 1999.

[10] Le M. P., Ellenbroek M. H. M., Seiler R., van Put P., Cottaar E .J. E., A full disturbance model for reaction wheels, 34th  Computers and Information in Engineering Conference, New York, USA, 2014.

[11] آقالاری ع.، ایرانزاد م.، مهدی آبادی م.، اندازه‌گیری اغتشاشات چرخ عکس‌العملی آزمایشگاهی و مدلسازی آنها. هیجدهمین کنفرانس بین المللی مکانیک، تهران، ایران، 1389.

[12] آقالاری ع.، ایرانزاد م.، مدلسازی کامل اغتشاشات چرخ عکس‌العملی و پیاده‌سازی روی یک نمونه آزمایشگاهی. مجله علمی-پژوهشی علوم و فناوری فضایی، د. 6، ش. 1، ص. 91-79، 1392.

 [13] Le M. P., Van der Heide E., Seiler R., Cottaar E .J. E., Detection and diagnosis of ball bearing imperfections in reaction wheels by micro-vibration test, 12th European Conference on Spacecraft Structures, Materials & Environmental Testing, Netherlands, 2014.

[14] Liebold F., Wiegand S., Käso R., Reaction wheel disturbance characterization by analysis of micro-vibration measurements. Applied Mechanics and Materials, Vol. 232, pp. 445–449, 2012.

[15] Taniwaki S., Ohkami Y., Experimental and numerical analysis of reaction wheel disturbances.  JSME International Journal Series C Mechanical systems, Machine Elements and Manufacturing, vol. 46, pp. 519–526, 2003.

[16] Elias L. M., Miller D. W., A structurally coupled disturbance analysis method using dynamic mass measurement techniques with application to spacecraft reaction wheel systems, Ph.D. dissertation, MIT, 2001.

[17] Elias L. M., Dekens F. G., Basdogan I., Neville T. A., Methodology for modeling the mechanical interaction between a Reaction wheel and a flexible structure, Interferometry in space, Waikoloa, USA, 2003.

[18] Kamesh D., Pandiyan R., Ghosal A., Passive vibration isolation of reaction wheel disturbances using a low frequency flexible space platform. Journal of Sound and Vibration, Vol. 331, pp. 1310–1330, 2012.

[19] Zhou W., Li D., Design and analysis of an intelligent vibration isolation platform for reaction/momentum wheel assemblies. Journal of Sound and Vibration, Vol. 331, pp. 2984–3005, 2012.

[20] Nayfeh A. H., Mook D. T., Nonlinear oscillations. New York, John Wiley & Sons, 2008.

[21] Nayfeh A. H., Introduction to perturbation techniques. New York, John Wiley & Sons, 2011.