Reducing the negative effects of flywheel disturbance on space camera image quality using the vibration isolation method
Although the performance of space cameras has largely improved, the micro vibration from flywheel disturbances still significantly affects the image quality of these cameras. This study adopted a passive isolation method to reduce the negative effect of flywheel disturbance on image quality. A metal...
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| Published in | Frontiers of Optoelectronics (Online) Vol. 10; no. 1; pp. 80 - 88 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Beijing
Higher Education Press
01.03.2017
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2095-2759 2095-2767 |
| DOI | 10.1007/s12200-017-0665-0 |
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| Abstract | Although the performance of space cameras has largely improved, the micro vibration from flywheel disturbances still significantly affects the image quality of these cameras. This study adopted a passive isolation method to reduce the negative effect of flywheel disturbance on image quality. A metal-rubber shock absorber was designed and installed in a real satellite. A finite element model of an entire satellite was constructed, and a transient analysis was conducted afterward. The change in the modulate transfer function was detected using ray tracing and optical transfer function formulas. Experiments based on real products were performed to validate the influence of the metal-rubber shock absorber. The experimental results confirmed the simulation results by showing that the negative effects of flywheel disturbance on the image quality of space cameras can be diminished significantly using the vibration isolation method. |
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| AbstractList | Although the performance of space cameras has largely improved, the micro vibration from flywheel disturbances still significantly affects the image quality of these cameras. This study adopted a passive isolation method to reduce the negative effect of flywheel disturbance on image quality. A metal-rubber shock absorber was designed and installed in a real satellite. A finite element model of an entire satellite was constructed, and a transient analysis was conducted afterward. The change in the modulate transfer function was detected using ray tracing and optical transfer function formulas. Experiments based on real products were performed to validate the influence of the metal-rubber shock absorber. The experimental results confirmed the simulation results by showing that the negative effects of flywheel disturbance on the image quality of space cameras can be diminished significantly using the vibration isolation method. Although the performance of space cameras has largely improved, the micro vibration from flywheel disturbances still significantly affects the image quality of these cameras. This study adopted a passive isolation method to reduce the negative effect of flywheel disturbance on image quality. A metal-rubber shock absorber was designed and installed in a real satellite. A finite element model of an entire satellite was constructed, and a transient analysis was conducted afterward. The change in the modulate transfer function was detected using ray tracing and optical transfer function formulas. Experiments based on real products were performed to validate the influence of the metal-rubber shock absorber. The experimental results confirmed the simulation results by showing that the negative effects of flywheel dis- turbance on the image quality of space cameras can be diminished significantly using the vibration isolation method. |
| Author | Changcheng DENG Deqiang MU Junli GUO Peng XIE |
| AuthorAffiliation | Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China University of Chinese Academy of Sciences, Beijing 100039, China Changehun University of Technology, Changeh-un-130012, China |
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| Keywords | modulate transfer function vibration isolation flywheel disturbance micro vibration |
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| Notes | 10-1029/TN micro vibration, modulate transfer function,vibration isolation, flywheel disturbance Although the performance of space cameras has largely improved, the micro vibration from flywheel disturbances still significantly affects the image quality of these cameras. This study adopted a passive isolation method to reduce the negative effect of flywheel disturbance on image quality. A metal-rubber shock absorber was designed and installed in a real satellite. A finite element model of an entire satellite was constructed, and a transient analysis was conducted afterward. The change in the modulate transfer function was detected using ray tracing and optical transfer function formulas. Experiments based on real products were performed to validate the influence of the metal-rubber shock absorber. The experimental results confirmed the simulation results by showing that the negative effects of flywheel dis- turbance on the image quality of space cameras can be diminished significantly using the vibration isolation method. modulate transfer function vibration isolation flywheel disturbance Document received on :2016-08-29 Document accepted on :2016-12-12 micro vibration ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 |
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| SubjectTerms | Biomedical Engineering and Bioengineering Cameras Electrical Engineering Engineering Finite element method flywheel disturbance Flywheels Image quality micro vibration modulate transfer function Optical transfer function Physics Ray tracing Research Article Rubber Satellite imagery Shock absorbers Transient analysis Vibration analysis vibration isolation 光学传递函数 图像质量 扰动 橡胶减震器 空间相机 调制传递函数 隔振 飞轮 |
| Title | Reducing the negative effects of flywheel disturbance on space camera image quality using the vibration isolation method |
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