HONG Xiaoyu, ZHANG Xiuzhong, ZHENG Weimin, WANG Guangli, LIU Qinghui, WANG Na, ZHANG Hongbo, WANG Min, SHU Fengchun . Research Progress of VLBI Technology and Application to China Lunar Exploration Project[J]. Journal of Deep Space Exploration, 2020 , 7(4) : 321 -331 . DOI: 10.15982/j.issn.2095-7777.2020.20200030

[1] 欧阳自远. 我国月球探测的总体科学目标与发展战略[J]. 地球科学进展,2004,19(3):355-357
OUYANG Z Y. Scientific objectives of Chinese lunar exploration project and development strategy[J]. Advance in Earth Sciences,2004,19(3):355-357
[2] 栾恩杰. 中国的探月工程——中国航天第三个里程碑[J]. 中国工程科学,2007,8(10):31-36
LUAN E J. China's Lunar exploration program——the third mile-stone for China's space industry[J]. Engineering Science,2007,8(10):31-36
[3] 吴伟仁,刘继忠,唐玉华,等. 中国探月工程[J]. 深空探测学报,2019,6(5):405-416
WU W R,LIU J Z,TANG Y H,et al. China Lunar exploration program[J]. Journal of Deep Space Exploration,2019,6(5):405-416
[4] 刘嘉兴. 载人航天USB测控系统及其关键技术[J]. 宇航学报,2005,26(6):743-747
LIU J X. Key technologies of the USB TT&C system for manned space flight[J]. Journal of Astronautics,2005,26(6):743-747
[5] 董光亮,李海涛,郝万宏,等. 中国深空测控系统建设与技术发展[J]. 深空探测学报,2018,5(2):99-114
DONG G L,LI H T,HAO W H,et al. Development and future of China’s deep space TT&C system[J]. Journal of Deep Space Exploration,2018,5(2):99-114
[6] 钱志瀚，李金岭. 甚长基线干涉测量技术在深空探测中的应用[M]. 北京：中国科学技术出版社，2012.
QIAN Z H，LI J L. Application of very long baseline interferometry in deep space exploration[M]. Beijing：Science and Technology Press，2012.
[7] MATVEENKO L I,KARDASHEV N S,SHOLIMITSHIKⅡ G B. Large base-line radio interferometrys[J]. Radiophysics and Quantum Electronics,1965,8(4):461-463
[8] KELLERMANN K I,COHEN M H. The origin and evolution of NRAO- Cornell VLBI system[J]. Journal of the Royal Astronomical Society of Canada,1988(82):248-265
[9] MORAN J M. Thirty years of VLBI：early days，successes and future[C]//ASP Conference. USA：NASA，1998.
[10] HIRABAYASHI H，HIROSAWA H，VSOP International Team. The VSOP mission: A general introduction and current overview[J]. Advances in Space Research， 2000, 26（4）：589-595.
[11] KARDASHEV N,KHARTOV V,ABRAMOV V,et al. Radioastron -a telescope with a size of 300 000 km:main parameters and first observational results[J]. Astronomy Reports,2013,57(3):153-194
[12] KELLERMANN K,VERMEULEN R C,ZENSUS J,et al. Sub-milliarcsecond imaging of quasars and active galactic nuclei[J]. The Astronomical Journal,1998,115(4):1295-1318
[13] LISTER M,ALLER M,ALLER H,et al. Mojave. xv. VLBA 15 GHz total intensity and polarization maps of 437 parsec-scale AGN jets from 1996 to 2017[J]. The Astrophysical Journal Supplement Series,2018,234(1):1-6
[14] HELMBOLDT J F,TAYLOR G B,TREMBLAY S,et al. The VLBA imaging and polarimetry survey at 5 GHz[J]. The Astrophysical Journal,2007,658(1):203
[15] KAZUNORI A,ANTXON A,WALTER A,et al. First M87 event horizon telescope results. I. the shadow of the supermassive black hole[J]. The Astrophysical Journal Letters,2019,875(1):1-17
[16] GREENHILL L J,JIANG D R,MORAN J M,et al. Detection of a subparsec diameter disk in the nucleus of NGC 4258[J]. The Astrophysical Journal,1995,440:619
[17] REID M J,BRAATZ J A,CONDON J J,et al. The megamaser cosmology project. I. very long baseline interferometric observations of UGC 3789[J]. The Astrophysical Journal,2009,695(1):287-291
[18] BRAATZ J A,REID M J,HUMPHREYS E M L,et al. The megamaser cosmology project. Ⅱ. the angular-diameter distance to UGC 3789[J]. The Astrophysical Journal,2010,718(2):657
[19] MA C,ARIAS E F,EUBANKS T M,et al. The international celestial reference frame as realized by very long baseline interferometry[J]. The Astronomical Journal,1998,116(1):516
[20] GORDON D,CHRISTOPHER JACOBS C,NTHONY BEASLEY A,et al. Second epoch VLBA calibrator survey observations:VCS-Ⅱ[J]. The Astronomical Journal,2016,51(6):154
[21] SCHUH H,BEHREND D. VLBI:a fascinating technique for geodesy and astrometry[J]. Journal of Geodynamics,2012,61:68-80
[22] BACHMANN S,THALLER D,ROGGENBUCK O,et al. IVS contribution to ITRF2014[J]. Journal of Geodesy,2016,90(7):631-654
[23] XU M H,ANDERSON J M,HEINKELMANN R,et al. Structure effects for 3417 celestial reference frame radio sources[J]. The Astrophysical Journal Supplement Series,2019,242(1):5
[24] SALZBERG I. Tracking the Apollo lunar rover with interferometry techniques[J]. Proceedings of the IEEE,1973,61(9):1233-1236
[25] SMITH J,RAMOS R. Data acquisition for measuring the wind on Venus from Pioneer Venus[J]. IEEE Transactions on Geoscience and Remote Sensing,1980,18(1):126-130
[26] MARTTIN-MUR T J,KRUIZINGA G L,BURKHART P D,et al. Mars science laboratory interplanetary navigation[J]. Journal of Spacecraft and Rockets,2014,51(4):1014-1028
[27] GOOSSENS S,MATSUMOTO K,LIU Q,et al. Lunar gravity field determination using SELENE same-beam differential VLBI tracking data[J]. Journal of Geodesy,2011,85(4):205-228
[28] 吴伟仁,王广利,节德刚,等. 基于ΔDOR信号的高精度VLBI技术[J]. 中国科学D辑:信息科学,2013,43(2):185-196
WU W R,WANG G L,JIE D G,et al. High-accuracy VLBI technique using ΔDOR signals[J]. Science Since Information,2013,43(2):185-196
[29] LIU Q H,ZHENG X,HUANG Y,et al. Monitoring motion and measuring relative position of the Chang’E-3 rover[J]. Radio Science,2014,49(11):1080-1086
[30] ZHENG W M,TONG F X,ZHANG J,et al. Interferometry imaging technique for accurate deep-space probe positioning[J]. Advances in Space Research,2017,60(12):2847-2854
[31] 朱人杰,项英,吴亚军,等. 射电天文高速数据采集与处理平台的设计与应用[J]. 天文学进展,2012,30(2):236-245
ZHU R J,XIANG Y,WU Y J,et al. Design and application of radio astronomy high-speed data acquisition and processing platform[J]. Progress in Astronomy,2012,30(2):236-245
[32] LI P J,HU X G,HUANG Y,et al. Orbit determination for Chang’E-2 lunar probe and evaluation of lunar gravity models[J]. Science in China Series G,2012,55(3):514-522
[33] 黄勇,昌胜骐,李培佳,等. 嫦娥三号月球探测器的轨道确定和月面定位[J]. 科学通报,2014,59(23):2268-2277
HUANG Y,CHANG S Q,LI P J,et al. Orbit determination of Chang’E-3 and positioning of the lander and rover[J]. China Science Bull,2014,59(23):2268-2277