Year 2023,
Volume: 04 Issue: 01, 32 - 40, 28.06.2023
Mehmet Taha Görmüş
,
Bilal Faruk Adın
,
Paşa Yayla
Supporting Institution
TÜBİTAK
Project Number
2209-A - University Students Research Projects Support Program
References
- Balaji, P. S., Moussa, L., Khandoker, N., Shyh, T. Y., Rahman, M. E. and Ho, L. H. (2017) ‘Experimental study on vertical static stiffnesses of polycal wire rope isolators’, In IOP Conference Series, Materials Science and Engineering, 217(1): p. 012032), IOP Publishing. doi:10.1088/1757-899X/217/1/012032.
- Bursa, A.İ. (2019) ‘Vibration Transmission Investigation of Engine Mounting Brackets’, MSc Thesis, İTÜ, Institute of Science and Technology, Istanbul-Turkey, (In Turkish).
- Burström, L., Lindberg, L., and Lindgren, T. (2006). Cabin attendants’ exposure to vibration and shocks during landing. Journal of Sound and Vibration, 298(3), 601-605. https://doi.org/10.1016/j.jsv.2006.06.026.
- Canlong, L. and Zhimeng, S. (2022) ‘Control methods, apparatus, and device, and UAV’, United States, Patent No. US11216013B2, (2022).
- Ciloglu, H., Alziadeh, M., Mohany, A. and Kishawy, H. (2015) ‘Assessment of the whole body vibration exposure and the dynamic seat comfort in passenger aircraft’, International Journal of Industrial Ergonomics, 45, pp. 116-123. doi:10.1016/j.ergon.2014.12.011.
- Ge, C., Dunno, K., Singh, M. A., Yuan, L., and Lu, L. X.. (2021). Development of a drone’s vibration, shock, and atmospheric profiles, Applied Sciences, 11(11), 5176. doi:10.3390/app11115176.
- Karaağaç, C. (2016). İHA Sistemleri Yol Haritası Geleceğin Hava Kuvvetleri 2016-2050. STM-Mühendislik Teknolojik Danışmanlık, retrieved from https://thinktech.stm.com.tr/uploads/docs/1608914423_satm-bb-17-0200-sektor-raporlari-iha-260417.pdf
- Kiunke, P.C. and Schaefer, R. D. (1993) ‘Gimbal vibration isolation system’, European Patent Office, Patent No. EP0559402A2, (1993).
- Kumar, D. (2021) ‘Durability analysis of helical coil spring in vehicle suspension systems’, PhD Thesis, Virginia Tech., USA.
- Lai, Y. C. and Jan, S. S. (2011) ‘Attitude estimation based on fusion of gyroscopes and single antenna GPS for small UAVs under the influence of vibration’, GPS Solutions, 15(1), pp. 67-77. doi:10.1007/s10291-010-0171-y.
- Leavitt, J.N., Alas, R. and Dafoe, E.C. (1972) ‘Stabilized camera mount’ United States, Patent No. US3638502.
- Levis, M.D. (2017) ‘Platform stabilisation system’, United States, Patent No. US9765925B2.
- Levis, M.D. (2001) ‘Stabilized platform systems for payloads’, United States, Patent No. US6263160.
- Liu, Y. (2020). Study on the vibrational comfort of aircraft in formation flight. Aircraft Engineering and Aerospace Technology, 92(8), 1307-1316. doi.org/10.1108/AEAT-12-2018-0311.
- Lucian, A.N. (1923) ‘Stabilizer’, United States, Patent No. US1634950.
- Norén, K. and Segerström, T. (1998) ‘A Device for stabilizing of a remotely controlled sensor, like a camera’, European Patent Office, No: WO1998016871A1.
- Richards, W.H. (1933) ‘Universal camera mount’, United States, Patent No. US1955770.
- Sciulli, D. (1997) ‘Dynamics and Control for Vibration Isolation Design’ PhD Thesis, Virginia Polytechnic Institute and State University, USA.
- Tewari, V. K. and Prasad, N. (1999) ‘Three-DOF modelling of tractor seat-operator system”, Journal of Terramechanics, 36(4), pp. 207-219. doi:10.1016/S0022-4898(99)00008-7.
- Tian, Y. and Jian, W. (2019) ‘Gimbal vibration damper for UAVS’, United States, Patent No. US10260591B2.
- Tyler, N. (1993) ‘Gyroscopically stabilized apparatus’, United States, Patent No. US5184521A.
- Weimin, C., Gang, L. and Wei, C. (1997) ‘Research on ring structure wire-rope isolators’, Journal of Materials Processing Technology, 72(1); pp. 24-27. doi:10.1016/S0924-0136(97)00124-6.
- Zeise, S.W., and Anderson, R.D. (2017) ‘Gimbal system having preloaded isolation’, United States, Patent No. US2017175948A1.
- Zhang, S., Zhang, Y. and Liang, G. (2020) ‘Damping device, gimbal assembly having same, and unmanned aerial vehicle’, United States, Patent No. US2020307826A1.
Passive Isolator Design and Vibration Damping of EO/IR Gimbal Used in UAVs
Year 2023,
Volume: 04 Issue: 01, 32 - 40, 28.06.2023
Mehmet Taha Görmüş
,
Bilal Faruk Adın
,
Paşa Yayla
Abstract
One of the most critical factors affecting the quality of the images captured by the surveillance systems used in unmanned aerial vehicle is the vibrations transmitted from the aircraft to the gimbal. The gimbal used in the unmanned aerial vehicles is essential equipment, holding the camera steadily and accurately and pointing it in the desired direction. Within the scope of this article, a passive vibration isolation system design has been made for the two-axis electro-optical gimbal used in the mini unmanned aerial vehicle. By choosing the spring-damper system among different methods, the design that isolates the harmonic vibration from the platform in a single axis has been made with the analytical method. The analytical method was used to create a design that isolates the harmonic vibration from the platform in a single axis. In addition, the part named 'Pan Yoke', which contains this damper system, was designed with a computer-aided-design program and natural frequency values were checked with Ansys modal analysis. The frequency of the vibration transmitted from the air vehicle to the gimbal and the natural frequency of the designed part has been determined to be close to each other, at around 150 Hz. The natural frequency values of this part were optimized with various design changes and topology optimizations to prevent the part from resonating.
Project Number
2209-A - University Students Research Projects Support Program
References
- Balaji, P. S., Moussa, L., Khandoker, N., Shyh, T. Y., Rahman, M. E. and Ho, L. H. (2017) ‘Experimental study on vertical static stiffnesses of polycal wire rope isolators’, In IOP Conference Series, Materials Science and Engineering, 217(1): p. 012032), IOP Publishing. doi:10.1088/1757-899X/217/1/012032.
- Bursa, A.İ. (2019) ‘Vibration Transmission Investigation of Engine Mounting Brackets’, MSc Thesis, İTÜ, Institute of Science and Technology, Istanbul-Turkey, (In Turkish).
- Burström, L., Lindberg, L., and Lindgren, T. (2006). Cabin attendants’ exposure to vibration and shocks during landing. Journal of Sound and Vibration, 298(3), 601-605. https://doi.org/10.1016/j.jsv.2006.06.026.
- Canlong, L. and Zhimeng, S. (2022) ‘Control methods, apparatus, and device, and UAV’, United States, Patent No. US11216013B2, (2022).
- Ciloglu, H., Alziadeh, M., Mohany, A. and Kishawy, H. (2015) ‘Assessment of the whole body vibration exposure and the dynamic seat comfort in passenger aircraft’, International Journal of Industrial Ergonomics, 45, pp. 116-123. doi:10.1016/j.ergon.2014.12.011.
- Ge, C., Dunno, K., Singh, M. A., Yuan, L., and Lu, L. X.. (2021). Development of a drone’s vibration, shock, and atmospheric profiles, Applied Sciences, 11(11), 5176. doi:10.3390/app11115176.
- Karaağaç, C. (2016). İHA Sistemleri Yol Haritası Geleceğin Hava Kuvvetleri 2016-2050. STM-Mühendislik Teknolojik Danışmanlık, retrieved from https://thinktech.stm.com.tr/uploads/docs/1608914423_satm-bb-17-0200-sektor-raporlari-iha-260417.pdf
- Kiunke, P.C. and Schaefer, R. D. (1993) ‘Gimbal vibration isolation system’, European Patent Office, Patent No. EP0559402A2, (1993).
- Kumar, D. (2021) ‘Durability analysis of helical coil spring in vehicle suspension systems’, PhD Thesis, Virginia Tech., USA.
- Lai, Y. C. and Jan, S. S. (2011) ‘Attitude estimation based on fusion of gyroscopes and single antenna GPS for small UAVs under the influence of vibration’, GPS Solutions, 15(1), pp. 67-77. doi:10.1007/s10291-010-0171-y.
- Leavitt, J.N., Alas, R. and Dafoe, E.C. (1972) ‘Stabilized camera mount’ United States, Patent No. US3638502.
- Levis, M.D. (2017) ‘Platform stabilisation system’, United States, Patent No. US9765925B2.
- Levis, M.D. (2001) ‘Stabilized platform systems for payloads’, United States, Patent No. US6263160.
- Liu, Y. (2020). Study on the vibrational comfort of aircraft in formation flight. Aircraft Engineering and Aerospace Technology, 92(8), 1307-1316. doi.org/10.1108/AEAT-12-2018-0311.
- Lucian, A.N. (1923) ‘Stabilizer’, United States, Patent No. US1634950.
- Norén, K. and Segerström, T. (1998) ‘A Device for stabilizing of a remotely controlled sensor, like a camera’, European Patent Office, No: WO1998016871A1.
- Richards, W.H. (1933) ‘Universal camera mount’, United States, Patent No. US1955770.
- Sciulli, D. (1997) ‘Dynamics and Control for Vibration Isolation Design’ PhD Thesis, Virginia Polytechnic Institute and State University, USA.
- Tewari, V. K. and Prasad, N. (1999) ‘Three-DOF modelling of tractor seat-operator system”, Journal of Terramechanics, 36(4), pp. 207-219. doi:10.1016/S0022-4898(99)00008-7.
- Tian, Y. and Jian, W. (2019) ‘Gimbal vibration damper for UAVS’, United States, Patent No. US10260591B2.
- Tyler, N. (1993) ‘Gyroscopically stabilized apparatus’, United States, Patent No. US5184521A.
- Weimin, C., Gang, L. and Wei, C. (1997) ‘Research on ring structure wire-rope isolators’, Journal of Materials Processing Technology, 72(1); pp. 24-27. doi:10.1016/S0924-0136(97)00124-6.
- Zeise, S.W., and Anderson, R.D. (2017) ‘Gimbal system having preloaded isolation’, United States, Patent No. US2017175948A1.
- Zhang, S., Zhang, Y. and Liang, G. (2020) ‘Damping device, gimbal assembly having same, and unmanned aerial vehicle’, United States, Patent No. US2020307826A1.