МОДЕЛ НА СИГНАЛ С НЕПРЕКЪСНАТА ЛИНЕЙНО ЧЕСТОТНА МОДУЛАЦИЯ И ИМПЛЕМЕНТАЦИЯ НА РАДИОЛОКАЦИОННА СИСТЕМА СЪС СИНТЕЗИРАНА АПЕРТУРА
Ключови думи :
геометрия на SAR, цифрова обработка на SAR сигнали, SAR модел на радар, имплементация на SAR радарАбстракт
Представен е модел на сигнал с непрекъсната линейно честотна модулация и имплементация на радиолокационна система със синтезирана апертура. Дефинирани са геометрията и основните кинематични уравнения, описващи топологията на SAR. Изведена е процедурата за възстановяване на
образа. Имплементирана e SAR система.
Сваляния
Данните за свалянията все още не са налични.
Литература (библиография)
1. C. Elachi, Spaceborne Radar Remote Sensing: Applications and Techniques. New York, NY: IEEE Press, 1987. 2, 29
2. R. O. Harger, Synthetic Aperture Radar Systems: Theory and Design. New York, NY: Academic Press, 1970. 2, 29
3. D. P. Duncan, “Motion compensation of interferometric synthetic aperture radar data,” Thesis, Brigham Young University, August 2004. 2
4. M. I. Duersch, “BYU micro-SAR: A very small, low-power LFM-CW synthetic aperture radar,” Thesis, Brigham Young University, November 2004. 2, 29
5. A. Currie, “Synthetic aperture radar,” Electronics & Communication Engineering Journal, vol. 3, pp. 159–170, August 1991. 2
6. E. Velten and C. Heer, “Future operational spaceborne synthetic aperture radar system considerations,” in IEEE International Geoscience and Remote Sensing Symposium, vol. 2, August 1997, pp. 993–995. 2
7. H. B¨ottger, C. Heer, and J. J. W. Wilson, “Design, performance and technology aspects in relation to a next generation high resolution spaceborne sar instrument,” in IEEE International Geoscience and Remote Sensing Symposium, vol. 4, May 1996, pp. 2341–2343.
8. V. Adrian and N. Suinot, “CLIMACS: Design of a high radiometric resolution SAR for land and sea ice applications,” in IEEE International Geoscience and Remote Sensing Symposium, vol. 3, August 1997, pp. 1150–1152.
9. R. J. Sullivan, Microwave Radar Imaging And Advanced Concepts. Norwood, MA: Artech House, 2000. 2
10. I. G. Cumming and F. H. Wong, Digital Processing of Synthetic Aperture Radar Data: Algorithms and Implementation. Norwood, MA: Artech House, 2005. 2, 20, New York, NY: Wiley-Interscience, 1999. 2
11. E. F. Knott, Radar Cross Section Measurements. New York, NY: Van Nostrand Reinhold, 1993. 3, 76
12. Chan Y. K., V. C. Koo, C. Y. Ang, K. S. Yee, M. Y. Chua. Design and development of a C-band RF transceiver for UAVSAR, In Electro-magnetic Research C, Vol. 24, 2011, pp 1-12.
13. Gregory L. Charvat, MIT IAP 2011 Laptop Based Radar:Block Diagram, Schematics, Bill of Material, and Fabrication Instructions, Presented at the 2011 MIT Independent Activities Period (IAP), MIT Lincoln Laboratory.
2. R. O. Harger, Synthetic Aperture Radar Systems: Theory and Design. New York, NY: Academic Press, 1970. 2, 29
3. D. P. Duncan, “Motion compensation of interferometric synthetic aperture radar data,” Thesis, Brigham Young University, August 2004. 2
4. M. I. Duersch, “BYU micro-SAR: A very small, low-power LFM-CW synthetic aperture radar,” Thesis, Brigham Young University, November 2004. 2, 29
5. A. Currie, “Synthetic aperture radar,” Electronics & Communication Engineering Journal, vol. 3, pp. 159–170, August 1991. 2
6. E. Velten and C. Heer, “Future operational spaceborne synthetic aperture radar system considerations,” in IEEE International Geoscience and Remote Sensing Symposium, vol. 2, August 1997, pp. 993–995. 2
7. H. B¨ottger, C. Heer, and J. J. W. Wilson, “Design, performance and technology aspects in relation to a next generation high resolution spaceborne sar instrument,” in IEEE International Geoscience and Remote Sensing Symposium, vol. 4, May 1996, pp. 2341–2343.
8. V. Adrian and N. Suinot, “CLIMACS: Design of a high radiometric resolution SAR for land and sea ice applications,” in IEEE International Geoscience and Remote Sensing Symposium, vol. 3, August 1997, pp. 1150–1152.
9. R. J. Sullivan, Microwave Radar Imaging And Advanced Concepts. Norwood, MA: Artech House, 2000. 2
10. I. G. Cumming and F. H. Wong, Digital Processing of Synthetic Aperture Radar Data: Algorithms and Implementation. Norwood, MA: Artech House, 2005. 2, 20, New York, NY: Wiley-Interscience, 1999. 2
11. E. F. Knott, Radar Cross Section Measurements. New York, NY: Van Nostrand Reinhold, 1993. 3, 76
12. Chan Y. K., V. C. Koo, C. Y. Ang, K. S. Yee, M. Y. Chua. Design and development of a C-band RF transceiver for UAVSAR, In Electro-magnetic Research C, Vol. 24, 2011, pp 1-12.
13. Gregory L. Charvat, MIT IAP 2011 Laptop Based Radar:Block Diagram, Schematics, Bill of Material, and Fabrication Instructions, Presented at the 2011 MIT Independent Activities Period (IAP), MIT Lincoln Laboratory.
Файлове за сваляне
Публикуван
2018-05-28
Брой
Раздел (Секция)
Компютърни науки и комуникации - рецензирани публикации. ISSN: 1314-7846
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Как да цитирате
МОДЕЛ НА СИГНАЛ С НЕПРЕКЪСНАТА ЛИНЕЙНО ЧЕСТОТНА МОДУЛАЦИЯ И ИМПЛЕМЕНТАЦИЯ НА РАДИОЛОКАЦИОННА СИСТЕМА СЪС СИНТЕЗИРАНА АПЕРТУРА. (2018). КОМПЮТЪРНИ НАУКИ И КОМУНИКАЦИИ, 3(1), 33-39. https://csc.bfu.bg/index.php/CSC/article/view/152