Skinner J M, Tollefson M V, Rosenstock J C.Cooperative intelligent agents for distributed satellite systems[R].USA:AIAA, A9845918,1998.
[2]
Das A, Cobb R.TechSat 21-Space missions using collaborating constellations of satellites[A].12th AIAA/USU Conference on Small Satellites[C].USA:SSC98-Ⅵ-1,1998.
[3]
Zetocha P A, Brito M.Development of a testbed for distributed satellite command and control[A].IEEE Aerospace Conference Proceedings[C].Big Sky, MT:IEEE, 2001.2-609-2-614.
[4]
Enright J P, Miller D W R, Sedwick J.Information architecture analysis and optimization for space-based distributed radar[R].USA:AIAA,A9942104,1999.
[5]
Massonnet D.Capabilities, limitations of the interferometric cartwheel[J].IEEE Transactions on Geoscience and Remote Sensing, 2001,39(3):506-520.
[6]
Ramongassie S, Phalippou L, Thouvenot E, Massonnet D.Preliminary design of the payload for the interferometric cartwheel[A].IGARSS[C].Honolulu, HI, USA:IEEE, 2000.1004-1006.
Moreira A, Krieger G, Mittermayer J.Comparison of several bistatic SAR configurations for spaceborne SAR interferometry[A].IGARSS[C].Sydney, NSW:IEEE, 2001.
[9]
Fiedler H, Krieger G, et al.Analysis of bistatic configurations for spaceborne SAR interferometry[EB/OL].http://www.weblab.dlr.de/rbrt/pdf.
[10]
Krieger G, Wendler M, et al.Performance analysis for bistatic interferometric SAR configurations[A].IGARSS[C].Toronto, Ont, Canada:IEEE, 2002.650-652.
[11]
Krieger G, Fiedler H, et al.Analysis of multistatic configurations for spaceborne SAR interferometry[J].IEE Proceedings Radar Sonar Navigation,2003,150(3):87-96.
[12]
Martin M, Stallard M J.Distributed satellite missions and technologies the TechSat 21 program[R].USA:AIAA,A9942052,1999.
[13]
Lombardo P, Lombardini F.Multi-baseline SAR interferometry for terrain slope adaptivity[A].IEEE National Radar Conference[C].Syracuse, NY, USA:IEEE, 1997.196-201.
[14]
Ferretti A, et al.Multi baseline interferometric techniques and applications[A].Proceedings of FRINGE 96-ESA Workshop on Applications of ERS SAR Interferometry[C].Zurich, Switzerland:IEEE, 1996.243-252.
[15]
Corsini G,et al.Reduction of the phase-unwrapping drawbacks by the three-antenna interferometric SAR system[A].IGARSS[C].Singapore:IEEE, 1997.1536-1538.
[16]
Corsini G, et al.Simulated analysis and optimization of a three-antenna airborne INSAR system for topographic mapping[J].IEEE Transactions on Geoscience and Remote Sensing, 1999,37(5):2518-2529
[17]
Robertson A E.Multi-baseline interferometric SAR for iterative height estimation[D].Provo, UT:Brigham Young University, 1998.
[18]
徐华平.分布式小卫星合成孔径雷达理论与方法研究[D].北京:北京航空航天大学研究生院,2003.
[19]
Luu K M, Martin M, et al.University nanosatellite distributed satellite capabilities to support TechSat 21[A].AIAA/USU Small Satellite Conference Logan UT[C].USA:SC99-Ⅲ-3,1999.
[20]
Sedwick R J, Kong E M C, Miller D W.Exploiting orbital dynamics and micropropulsion for aperture synthesis using distributed satellite systems:applications to techsat 21[R].USA:AIAA, A9845988,1998.
Burns R, McLaughlin C A, et al.TechSat 21:Formation design, control and simulation[A].IEEE Aerospace Conference Proceedings[C].Big Sky, MT:IEEE, 2000.19-25.
[23]
Sedwick R J, Hacker T L, Marais K.Performance analysis for an interferometric space-based GMTI radar system[A].IEEE National Radar Conference-Proceedings[C].Alexandria, VA, USA:IEEE, 2000.689-694.
[24]
Massonnet D, et al.A wheel of passive radar microsats for upgrading existing SAR projects[A].IGARSS[C].Honolulu, HI, USA:IEEE,2000.1000-1003.
[25]
National Space Development Agency of Japan, Centre National d''Etudes Spatiales.Agreement between NASDA and CNES on an action plan for the cooperation in the field of earth observation for natural disaster monitoring[EB/OL].www.nasda.go.Jp/press/1999/12/cnes-991216-e.html.
[26]
Martinerie F, Ramongassie S, Deligny B.Interferometric cartwheel payload:development status and current issues[A].IGARSS[C].Sydney,NSW:IEEE, 2001.390-392.
[27]
Mittermayer J, Krieger G, et al.Interferometric performance estimation for the interferometric cartwheel in combination with a transmitting SAR-satellite[A].IGARSS[C].Sydney, NSW:IEEE, 2001.2955-2957.
[28]
Fiedler H, Krieger G, et al.Analysis of satellite configurations for spaceborne SAR interferometry[A].International Symposium Formation Flying Mission & Technologies[C].Toulouse, France,29-31 October, 2002.
[29]
林来兴.发展我国小卫星星座和测控技术[J].飞行器测控学报,2000,19(3):17-22.
[30]
Xu W, et al.Phase-unwrapping of SAR interferograms with multi-frequency or multi-baseline[A].IGARSS[C].Pasadena, CA, USA:IEEE, 1994.730-732.
[31]
Lombardo P,Lombardini F.Absolute phase retrieval in a three-element synthetic aperture radar interferometer[A].Proceedings 1996 CIE International Conference Radar[C].Beijing, China:IEEE, 1996.309-312.
[32]
Berizzi F,et al.Simulation model and performance analysis of a threeantenna INSAR system.Radar 97[A].IEE Conference Publication[C].Edinburgh, UK:IEEE, 1997.119-123.
[33]
Lombardini F, et al.Application of array processing techniques to multibaseline InSAR for layover solution[A].IEEE National Radar Conference Proceedings[C].Atlanta, GA:IEEE,2001.210-215.
[34]
Romeiser R,Schwabisch M,et al.Study on concepts for radar interferometry from satellites for ocean(and land) applications[R].USA:KoRIOLiS Report, 2002.
