Acta Optica Sinica, Volume. 41, Issue 2, 0222001(2021)
Optical System Design of Wide-coverage and High-resolution Airborne Camera
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Fig. 3. Image quality evaluation of fore monocentric symmetric objective system. (a) Spot diagram; (b) ray aberration diagram
Fig. 5. Image quality evaluation of relay lens system. (a) Spot diagram; (b) ray aberration diagram
Fig. 7. Single-channel image quality evaluation curves of cascade optical imaging system. (a) Spot diagram; (b) MTF curve; (c) field curvature/distortion curve; (d) ray aberration diagram
Fig. 9. Image quality evaluation of optical system in airborne camera at flight altitude above 8000 m. (a) Spot diagram; (b) MTF curve
Fig. 10. Image quality evaluation of optical system in airborne camera at flight altitude of 1000 m. (a) Spot diagram; (b) MTF curve
Fig. 11. Image quality evaluation of optical system in airborne camera at flight altitude of 100 m. (a) Spot diagram; (b) MTF curve
Fig. 12. Optical imaging diagram of fore monocentric symmetric objective. (a) Flight altitude above 8000 m; (b) flight altitude below 8000 m
Fig. 13. Image quality evaluation of optical system in airborne camera at flight altitude of 1000 m after optimizing wide-field curved image. (a) Spot diagram; (b) MTF curve
Fig. 14. Image quality evaluation of optical system in airborne camera at flight altitude of 100 m after optimizing wide-field curved image. (a) Spot diagram; (b) MTF curve
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Jiahui Li, Fenli Tan, Chenxin Zeng, Yiqun Ji. Optical System Design of Wide-coverage and High-resolution Airborne Camera[J]. Acta Optica Sinica, 2021, 41(2): 0222001
Paper Information
Category: Optical Design and Fabrication
Received: Jul. 22, 2020
Accepted: Aug. 12, 2020
Published Online: Feb. 27, 2021
The Author Email: Yiqun Ji (jiyiqun@suda.edu.cn)
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