T h is sy ste m w a s d e sig n w ith th e s p e c ific a p p lic a tio n to se a ice. H o w e v e r, th e d e s ig n o f th e sy ste m is lim ite d to th is re g io n o n ly , b u t c o u ld b e e x p a n d e d o r r e v is e d to a p p ly to m a n y d iffe re n t areas. F o r e x a m p le , i f th e a re a o f in te re s t fo r th e s y s te m w a s a n u rb a n e n v iro n m e n t o r c ity im a g in g , it m ig h t b e p o s s ib le to u s e o n ly o n e s a te llite , g iv e n th a t th e m a ss a n d v o lu m e o f e a c h c o m p o n e n t w ill m e e t th e m ic ro -s a te llite c o n s tra in ts , o r to in c re a s e th e re s o lu tio n d u e to th e h ig h b a c k s c a tte r fro m th is re g io n . C ity e n v iro n m e n ts a re k n o w n to h a v e a m in im u m b a c k s c a tte r o f a p p ro x im a te ly - 1 0 d B , a n d th e p o s s ib ility
e x is ts to u s e a sin g le s a te llite sy ste m . A lso , g iv e n th e d ire c t re la tio n s h ip b e tw e e n p o w e r a n d re s o lu tio n , th e re s o lu tio n c a n th e n b e im p ro v e d if th e re tu rn e d p o w e r is g reater. C o n v e rs e ly , if th e sy ste m w e re to b e a p p lie d to a re g io n w ith s ig n ific a n tly le ss fo rw a rd - s c a tte r, e .g . w o o d la n d s , th e re s o lu tio n c o n s tr a in t o f 3 0 m ca n b e re la x e d to c o m p e n s a te fo r th e re d u c e d p o w e r re tu rn . I n v e s tig a tin g o th e r re g io n s o f a p p lic a tio n w ill e x p a n d th e u s e fu ln e s s o f th is sy stem .
References:
[ADAM-87] [ALGR-OO] [AUTE-84] [BALA-82] [BARB-85] [BARB-98] [BECKa-87] [BECKb-87] [BENZ-95] [BLAK-66] [BOVE-87] [BROW-73] [BURD-68] [BURE-71] [CARS-92] [CHAN-98]Adams, J.W. and T.M. Schifani. 'Waveform Error Analysis fo r Bistatic Synthetic Aperture
Radar. IEE International Conference on Radar. 1987.
Algra, Theo. Compression o f Raw SAR Data using Entropy-Constrained Quantization. IEEE International Geoscience and Remote Sensing Symposium. 2000.
Auterman, James L. Phase Stability Requirements fo r a Bistatic SAR.. IEEE National Radar Conference. 1984. pg. 48-52.
Balanis, Constantine. Antenna Theory: Ananlvsis and Design. John Wiley & Sons, New York. 1982. pg. 785-830.
Barber, B.C. Theoiy o f Digital Imaging from Orbital Synthetic-Aperture Radar. International Journal of Remote Sensing, Vol. 6, No. 7. 1985. pg.1008-1057.
Barber, David, Adrian Fung, Thomas Grenfell, Son Nghiem, Robert Onstott, VI Lytle, Donald Perovich and Anthony Gow. The Role o f Snow on Microwave Emission and
Scattering over First-Year Sea Ice. IEEE Transactions on Geoscience and Remote Sensing,
Vol. 36, No.5. Sept 1998. pg. 1750-1763.
Beckmann, Petr and Andre Spizzichino. The Scattering of Electromagnetic Waves from Rough Surfaces. Artech House, Inc., Maine. 1987. pg. 9-33.
Beckmann, Petr and Andre Spizzichino. The Scattering of Electromagnetic Waves from Rough Surfaces. Artech House, Inc., Maine. 1987. pg. 70-98.
Benz, Ursula, Klaus Strodl, and Alberto Moreira. A Comparison o f Several Algorithms fo r
SAR Raw Data Compression. IEEE Transactions on Geoscience and Remote Sensing, Vol.
33, No. 5. Sept 1995. pg. 1266-1276.
Blake, Lamont V. Antennas. John Wiley &Sons, Inc., New York. 1966. pg. 256-283. Bovey, C.K. and C.P. Home. Synchronization Aspects fo r Bistatic Radar. IEE
International Conference on Radar. 1987.
Brown, William and George Houser. Synthetic Aperture Processing with Limited Storage
and Presumming. IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-9,
No. 2. March 1973. pg. 166-175.
Burdic, William S. Radar System Processing. Prentice Hall, Inc., New Jersey. 1968. Bures, Kenneth and Ferrel Stremler. Synthetic Aperture Bistatic Radar fo r Mapping
Tropospheric Radio Scatterers. Proceedings IEEE, Vol. 59, No. 4. April 1971.
Carsey, Frank D. [ed] Microwave Remote Sensing of Sea Ice. Geophysical Monograph Series, Washington DC. 1992. pg.9-47.
Chan, Hiam Lim and Tat Soon Yeo. Non-iterative Quality Phase-Gradient Autofocus
Algorithm fo r Spotlight SAR Imagery. IEEE Transactions on Geoscience and Remote
Sensing, Vol. 36, No. 5. Sept. 1998.
[CHEN-99] [COOK-67] [COUL-97] [CURLa-91] [CURLb-91] [CURLc-91] [CURLd-91] [CURLe-91] [CURR-91] [CUTR-70] [D’ADD-86] [D’ELI-00] [DONG-97] [ED MO-84] [ELACa-88] [ELACb-88] [ELACa-87] [ELACb-87]
Chen, Victor and William Miceli. The Effect o f Roll, Ptich and Yaw Motions on ISAR
Imaging. SPIE Conference for Radar Processing, vol. 3810. July 1999.
Cook, Charles E. and Marvin Bernfeld. Radar Signals: An Introduction to Theory and Application. Academic Press, New York. 1967. pg. 130-171.
Coult, Regina. Investigation of the Feasibility of Low-Cost Small Satellite SAR in Present Constraints. Centre for Satellite Engineering Research. Sept, 1997.
Curlander, John and Robert McDonough. Synthetic Aperture Radar Systems and Signal Processing. John Wiley & Sons, Inc., New York. 1991. pg. 126-152.
Curlander, John and Robert McDonough. Synthetic Aperture Radar Systems and Signal Processing. John Wiley & Sons, Inc., New York. 1991. pg. 182-208.
Curlander, John and Robert McDonough. Synthetic Aperture Radar Systems and Signal Processing. John Wiley & Sons, Inc., New York. 1991. pg. 256-294.
Curlander, John and Robert McDonough. Synthetic Aperture Radar Systems and Signal Processing. John Wiley & Sons, Inc., New York. 1991. pg. 376-379.
Curlander, John and Robert McDonough. Synthetic Aperture Radar Systems and Signal Processing. John Wiley & Sons, Inc., New York. 1991. pg. 428-473.
Currie, A. Synthetic Aperture Radar. Electronics and Communication Engineering Journal. August 1991.pg. 159-170.
Cutrona, L.J. Synthetic Aperture Radar. Ch.23 of The Radar Handbook. Merrill Skolnik, ed McGraw-Hill Book Co., New York. 1970.
D'Addio, E., and A. Farina. Overview o f Detection Theory in Multistatic Radar. IEE Proceedings Pt. F, Vol. 133, No. 7. 1986.
D ’Elia, Ciro, Giovanni Poggi and Luisa Verdoliva. Compression o f SAR Raw Data via
Range Focusing and Trellis Coded Quantization. IEEE International Geoscience and
Remote Sensing Symposium. 2000.
Dong, Y., B. Forster and C. Ticehurst. Radar Backscatter Analysis fo r Urban
Environments. International Journal of Remote Sensing, Vol. 18, No. 6. 1997. pg. 1351-
1364.
Edmonds, Marty. Digital Algorithms in Spaceborne Synthetic Aperture Radar. AFIT Internal Report. 1984.
Elachi, Charles. Spaceborne Radar Remote Sensing: Applications and Techniques. IEEE Press., New York. 1988. pg. 51-80.
Elachi, Charles. Spaceborne Radar Remote Sensing: Applications and Techniques. IEEE Press., New York. 1988. pg. 85-109.
Elachi, Charles. Introduction to the Physics and Techniques of Remote Sensing. John Wiley & Sons, Inc., New York. 1987. pg. 22-45.
Elachi, Charles. Introduction to the Physics and Techniques of Remote Sensing. John Wiley & Sons, Inc., New York. 1987. pg. 161-218.
[ENVI-01] EnviSat Homepage: http://envisat.esa.int. [ERS-01] ERS Homepage: http://eaith.esa.int.
[FRAN-99] Franceschetti, Giorgio and Riccardo Lanari. Synthetic Aperture Radar Processing. CRC Press, Florida. 1999. pg. 105-165.
[GALL-88] Gallaway, William, Kirk Luckscheiter, Eric Cowen, and Joseph Wilhelm. A Direct Digitally
Synthesized Exciter Achieving Near Theoretical Performance fo r an Operational SAR System. IEEE National Radar Conference. 1988. pg. 22-21.
[GLAS-86] Glaser, J.I. Fifty Years o f Bistatic and Multistatic Radar. IEE Proceedings Pt. F, Vol. 133, No. 7. 1986.
[GRIF-91] Griffiths, H.D. The Effect o f Phase and Amplitude Errors in FM Radar. IEE High Tim- Bandwidth Waveforms Colloquium. 1991. pg. 9/1-9/5.
[HANL-80] Hanle, Eberhard. Distance Considerations fo r Multistatic Radar. IEEE International Radar Conference. May 1980. pg. 100-105.
[HOM-90] Horn, R.L., R.E. Rouse and K.L. Bateman. An Automatic Phase Alignment System fo r
Transmitters. IEEE International Radar Conference. 1990. pg. 141-146.
[HOVA-80] Hovanessian, S.A. Introduction to Synthetic Array and Imaging Radars. Artech House, Inc., Maryland. 1980.
[HSU-86] Hsu, Y.S., and D.C. Lord. Spaceborne Bistatic Radar - An Overview. IEE Proceedings Pt F, Vol. 133, No. 7. 1986.
[HUAN-97] Huang, J., M. Lou, and E. Caro. Super-Low-Mass Spaceborne SAR Array Conepts. IEEE Antennas and Propagation Society International Symposium. 1997. pg. 1288-1291. [HUDS-81] Hudson, J.E. Adaptive Array Principles. Peter Peregrinus, Ltd., London. 1981.
[ITU-01] International Telecommunication Union Website: http://www.itu.int/aboutitu/historv.html [JORD-75] Jordan, Gary Blake. Comparison o f Two Major Classes o f Coherent Pulsed Radar Systems.
IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-11, No. 3. May 1975. pg 363-371.
[JPL-01] JPL Remote Sensing Website: www.southport.ipl.nasa.gov/desc/imagingradarv3.html. [KING-92] Kingsley Simon and Shaun Quegan. Understanding Radar Systems. McGraw-Hill Book
Co., England. 1992.
[KRAS-88] Krassner, George and Jackson Michael. Space Communications Systems. McGraw-Hill, New York. 1964. pg. 130-166.
[KRAU-88] Kraus, John D. Antennas. McGraw-Hill International Editions, New York. 1988. [KUMA-89] Kumar, A., and H.D. Hristou. Microwave Cavity Antennas. Artech House, Inc., Maine.
1989. pg. 101-210.
[LARSa-92] [LARSb-92] [LARSc-92] [LI-83] [LIVI-91] [MARA-86] [MARAa-93] [MARAb-93] [MASS-00] [MASS-99] [MEER-01] [MOCC-OO] [MOHR-OO] [MRAZ-83] [MUFF-95] [NASD-01]
[KWOK-89] Kwok, Ronald and William TK Johnson. Block Adaptive Quantization o f Magellan SAR
Data. IEEE Transactions on Geoscience and Remote Sensing,Vol. 27, No. 4. July 1989.
pg. 375-383.
Larson, Wiley J. and James R. Wertz. Space Missions Analysis and Design, 2lld ed. Microcosm, Inc., California. 1992. pg. 167-190.
Larson, Wiley J. and James R. Wertz. Space Missions Analysis and Design, 2lld ed. Microcosm, Inc., California. 1992. pg. 339-468.
Larson, Wiley J. and James R. Wertz. Space Missions Analysis and Design, 2nd ed. Microcosm, Inc., California. 1992. pg. 503-553.
Li, F.K. and WTK Johnson. Ambiguities in Spaceborne Synthetic Aperture Radar Systems. IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-19, No. 3. May 1983. Livingstone, Charles and Mark Drinkwater. Springtime C-band SAR Backscatter Signatures
o f Labrador Sea Marginal Ice: Measurements versus Modeling Predictions. IEEE
Transactions on Geoscience and Remote Sensing, Vol. 29, No. 1. Jan 1991. pg. 29-41. Maral, G., Bousquet, M. Satellite Communication Systems. 2nd ed. John Wiley &Sons, Chichester. 1986. pg. 96.
Maral, G., Bousquet, M. Satellite Communication Systems, 2nd ed. John Wiley &Sons, Chichester. 1993. pg. 14-45.
Maral, G., Bousquet, M. Satellite Communication Systems, 2nd ed. John Wiley &Sons, Chichester. 1993. pg. 227-248.
Massonnet, D., E. Thouvenot, S. Ramongassie, L. Phalippou, A Wheel o f Passive Radar
Microsats fo r Upgrading Existing SAR Projects. Proceedings of the International
Conference on Geoscience and Remote Sensing Symposiun, Vol. 3. 2000.
Massonnet, Didier. Capabilities and Limitations o f the Interferometric Cartwheel. CNES Memo. November 1999.
Meerman, Max. “Design History of SSTL Microsatelltes.” Internal presentation for SSTL. 11 Sept, 2001.
Moccia, A. N. Chiacchio, and A. Capone. Spaceborne bistatic Synthetic Aperture Radar
fo r Remote Sensing. International Journal of Remote Sensing, Vol. 21, No. 18. pg. 3395-
3414.
Mohr, Johan and Soren Madsen. The Impact o f Curved Satellite tracks on SAR Focusing. IEEE International Geoscience and Remote Sensing Symposium. 2000.
Mrazek, Catherine, and Samuel McCandless. A Multi-Look Correlation Auto-Focus
technique fo r Synthetic Aperture Radar. IEEE National Telecommunications Conference.
1983. pg. 118-122.
Muff, DG, AP Blake, and AM Horne. Spaceborne SAR Autofocus. IEE Colloquium on the Recent Development in Radar Imaging Systems. 1995. pg.l 1/1-11/11.
NASDA Website: http://www.nasda.go.ip.
[NAVY-01] [NEWK-96] [NGHI-94] [NOHA-98] [NOZE-96] [OLIV-94] [OLIV-97] [ONST-92] [PARKa-99] [PARKb-99] [PASC-98] [PASC-OO] [PRAT-93] [POGG-99] [PYAT-78] [RADA-01] [RAVE-66] [ROMB-99]
Navy Electronic Warfare Website: http://ewhdbks.mugu.navy.mil.
Newkirk, Michael and Gary Brown. A Waveform Model fo r Surface and Volume Scattering
from Ice and Snow. IEEE Transactions on Geoscience and Remote Sensing, Vol. 34, No.2.
March 1996. pg. 444-456.
Nghiem, S.V., R. Kwok, S.H. Yueh, and M.R. Drinkwater. Polarimetric Signatures o f Sea
Ice: Theoretical Model. Journal of Geophysical Research. 1994.
Nohara, Tim J. Design o f a Space-based Radar Signal Processor. IEEE Transactions on Aerospace and Electronic Systems, Vol. 34, No. 2. April 1998. pg. 366-377.
Nozette, S., C.L. Lichtenberg, P. Spudis, R. Bonner, W. Ort, E. Malaret, M. Robinson, and E.M. Shoemaker. The Clementine Bistatic Radar Experiment. Science Vol. 274. Nov.
1996. pg 1495-1498.
Oliver, A.D., PJB Clarricoats, A.A. Kisak, L. Shafai. Microwave Horns and Feeds. IEEE Press, New York. 1994. pg. 416-426.
Oliver, Chris and Shaun Quegan. Understanding Svthetic Aperture Radar Images. Artech Hous, Inc., Maryland. 1997.
Onstott, Robert G. “SAR and Scatterometer Signatures of Sea Ice.” Microwave Remote Sensing of Sea Ice. Frank D. Carsey [ed]. Geophysical Monograph Series, Washington DC. 1992. pg.73-110.
Parkes, S.M. and H.L. Clifton. The Compression o f Raw SAR Image Data. International Journal of Remote Sensing, Vol. 20, No. 18. 1999. pg. 3563-3581.
Parkes, S.M. Wide Bandwidth B A Q for On-Board Compression o f Raw SAR Data. Proceedings of the Data Systems in Aerospace Conference. May 1999. pg. 613-617. Pascazio, V. and G. Schirinzi. Sythetic Aperture Radar Imaging by One-bit Coded Signals. Electronics & Communications Engineering Journal. Feb, 1998. pg. 17-28.
Pascazio, V., G. Schirinzi. SAR phase history data compression by using wavelet packets. IEEE International Geoscience and Remote Sensing Symposium 2000.
Prati, C. and F. Rocca. Improving Slant Range Resolution with Multiple SAR Surveys.IEEE Transactions on Aerospace and Electronic Systems, Vol. 29, No. 1. Jan 1993.
Poggi, Giovanni, Arturo RP Ragazini, and Luisa Verdoliva. On-Board Compression o f
SAR Data Through Range Focusing. IEEE International Geoscience and Remote Sensing
Symposium. 1999. pg. 2247- 2250.
Pyati, S. Signal Processing o f Synthetic Aperture Radar Data. Internal Report no. TOR- 0078(3070-20)-5. Aerospace Corporation. 1978.
RadarSat Homepage: http://www.space.gc.ca.
Raven, R.S. Requirements on Master Oscillators fo r Coherent Radar. Proceedings of the IEEE Vol. 54, No. 2. Feb. 1966. pg. 237-247.
Rombeck, F. and E. Weih. Ultra-High Speed & Large Capacity Solid State Memories. Proceedings of the Data Systems in Aerospace Conference. May 1999. pg. 631-634.
[SCHI-OO] [SEA-01] [SKOLa-62] [SKOLb-62] [SKOL-70] [SMIT-OO] [STEI-76] [STEY-01] [STIL-OO] [STIMa-98] [STIMb-98] [STIMc-98] [SOUM-89 ] [SOUM-91] [SOUM-99] [SUES-OO]
[SCHA-99] Schaefer, C. and E. Krahn. Processing and Storage Subsystems fo r Hig-Resolution SAR
Instruments. Proceedings of the Data Systems in Aerospace Conference. May 1999. pg.
625-630.
Schiff, Conrad and John Bristow. Formation Flying in Elliptical Orbits. IEEE International Aerospace Conference. May 2000. pg. 37-47.
Sea Ice Monitoring Website:
http://fram.nrsc.no/CEO Training/Training%20and%20Education/html/Word html/Tr M Skolnik, Merrill I. Introduction to Radar Systems. McGraw-Hill Kogakusha, Ltd., Tokyo. 1962. pg. 1-4.
Skolnik, Merrill I. Introduction to Radar Systems. McGraw-Hill Kogakusha, Ltd., Tokyo. 1962. pg. 20-114.
Skolnik, Merrill I. The Radar Handbook. McGraw-Hill Book Co., New York. 1970. pg. 5-72.
Smith, Ryan L. and David V. Arnold. Development o f a Low Cost, FM/CW Transmitter fo r
Remote Sensing. IEEE International Geoscience and Remote Sensing Symposium. 2000.
Steinberg, Bernard D. Principles of Aperture and Array System Design: Including Random and Adaptive Arrays. John Wiley & Sons, Inc., New York. 1976.
Steyn, Herman. “ In-orbit ADCS results and achievements on SSTL Nano to Minisatellites.” Internal presentation to SSTL. 24 Jul y2001.
Stiles, J., N. Goodman, SiChung Lin. Peiformance and Processing o f SAR Satellite
Clusters. IEEE International Geoscience and Remote Sensing Symposium. 2000.
Stimson, George W. Introduction to Airborne Radar.Scitech Publishing, Inc., New Jersey. 1998. pg. Pg 163-185.
Stimson, George W. Introduction to Airborne Radar.Scitech Publishing, Inc., New Jersey. 1998. pg. 253-277.
Stimson, George W. Introduction to Airborne Radar.Scitech Publishing, Inc., New Jersey. 1998. pg. 393-435.
Soumekh, M„ J. Choi, and W. Zwolinski. Target Imaging Using A Synthesized Bistatic
Radar. IEEE International Conference on Systems Engineering. 1989.
Soumekh, Mehdrad. Bistatic Syntheitc Aperture Radar Inversion with Application in
Dynamic Object Imaging. IEEE Transactions on Signal Processing, Vol. 39, No, 9. 1991.
pg. 2044-2055.
Soumekh, Mehrdad and Jeong-Hu Choi. Phase and Amplitude Restoration in SAR
Imaging. IEEE Transactions of Image Processing, Vol. 1, No. 2. April 1999.
Suess, M., C. Schaefer and R. Zahn. Discussion o f the Intriductionfo On-Board Data
Processing to Spaceborne SAR Instruments. IEEE International Geoscience and Remote
Sensing Symposium. 2000.
[TOLL-98] [TOMI-78] [UTEX-01] [V ACC-00] [WAHL-94] [WICK-01] [WILLa-91] [WILLb-91] [WILLc-91] [WILLd-91 ] [WOOD-98] [WONG-OO] [WU-OO] [YANG-01] [YE-99] [YEH-OO] [YUNC-94]
[THOM-99] Thompson, Douglas, James Bates, and David Arnold. Extending the Phase Gradient
Autofocus fo r Low-Altitude Stripmap Mode SAR. IEEE National Radar Conference. 1999.
pg. 36-40.
Tollefson, Mark V. and Bruce K. Preiss. Space Based Radar Constellation Optimization. IEEE International Aerospace Conference. May 1998. pg. 379-388.
Tomiyasu, Kiyo. Bistatic Synthetic Aperture Radar Using Two Satellites. IEEE EASCON. 1978. pg. 106-110.
University of Texas Radar Website: www.csr.utexas.edu/proiects/rs/whatisradar.
Vaccaro, R., P.C. Smits, S.G. Dellepiane. Exploiting Spatial Correlation Features fo r SAR
Image Analysis. IEEE Transactions on Geoscience and Remote Sensing, Vol. 38, No. 3.
May 2000.
Wahl, D.E.; Eichel, P.H.; Ghiglia, D.C.; Jakowatz, C.V., Jr. Phase Gradient Autofocus-A
Robust Tool fo r High Resolution SAR Phase Correction. IEEE Transactions on Aerospace
and Electronic Systems, Vol. 30, No. 3. July 1994.
Wicks, Alex. “Constella Satellite.” SSTL Marketing Information Page. 2001. Willis, Nicholas J. Bistatic Radar. Artech House, Inc., Maryland. 1991. pg. 59-67. Willis, Nicholas J. Bistatic Radar. Artech House, Inc., Maryland. 1991. pg. 70-81. Willis, Nicholas J. Bistatic Radar. Artech House, Inc., Maryland. 1991. pg. 191-195. Willis, Nicholas J. Bistatic Radar. Artech House, Inc., Maryland. 1991. pg. 255-265.
Wood, Peter anfd Guy Seguin. Synthetic Aperture Radar with a Spacecraft Antenna o f
Reduced Size. European Conference on Synthetic Aperture Radar. 1998. pg. 171-174.
Wong, Frank, Ngee Leng Tan, Tat Soon Yeo. Effective Velocity Estimation fo r Space-
Borne SAR. IEEE Geoscience and Remote Sensing Symposium. 2000.
Wu, R. and J. Li. Autofocus and Super-Resolution Synthetic Aperture Radar Image
Formation.IEE Proceedings Radar, Sonar and Navigation, Vol. 47, No. 5. October 2000.
Yang, W.Q. and TY Ng. Phase-Shiftable Signal Generator. Electronics World. July 2001. pg. 514-520.
Ye, Wei, Tat Soon Yeo, and Zheng Bao. Weighted Least-Squares Estimation o f Phase
Errors fo r SAR/ISAR Autofocus. IEEE Transactions on Geoscience and Remote Sensing,
Vol. 37, No. 5. 1999. pg. 2487-2493.
Yeh, Pen-Shu, Jack Venbrux, Prakash Bhatia and Warner Miller. A Real-Time High
Performance Data Compressions Technique fo r Space Applications. IEEE International
Geoscience and Remote Sensing Symposium. 2000.
Yunck, T.P. Orbit Determination. Global Positioning System: Theory and Applications, vol II. B.W. Parkinson and J.J. Spilker, Jr. [eds]. American Institute of Aeronautics and Astronautics. Washington. 1994. pg. 559-592.
j
UNIVERSITY OF SURREY LIBRARY
[ZAVA-99]
[ZHUK-99]
Zavattero, Paul. Distributed Target SAR Image De-Blurring Using Phase Gradient
Autofocus. IEEE Internationa Radar Conference: Into the Next Millenium. 1999. pg. 246-
250.
Zhukov, Boris, Dieter Oertel, Franz Lanzl and Gotz Reinhackle. Unmixing-Based
Multisensor Multiresolution Image Fusion. IEEE Transactions on Geoscience and Remote