The 78 references in paper I. Gilavdary Z., N. Riznookaya N., И. Джилавдари З., Н. Ризноокая Н. (2016) “ЭТАПЫ РАЗВИТИЯ И СОСТОЯНИЕ РАЗРАБОТОК ГРАВИТАЦИОННЫХ ГРАДИЕНТОМЕТРОВ ДЛЯ ПОДВИЖНЫХ ОБЪЕКТОВ. (Обзор) // STAGES OF DEVELOPMENT AND STATE OF ENGINEERING OF GRAVITY GRADIOMETERS FOR MOVING OBJECTS. (Review)” / spz:neicon:pimi:y:2016:i:3:p:235-246

1
Forward, R.L. Review of artificial satellite gravity gradiometer techniques for geodesy. The Use of Artificial Satellites for Geodesy and Geodynamics, 1974, vol. 1, pp. 157–192.
(check this in PDF content)
2
Forward R.L., Lemmen R.M., Lowe R.W., Peterson R.W., Tonai I., Williams W.E. Rotating gravity gradiometer study. Hughes research laboratories. Malibu, 1976, p. 174.
(check this in PDF content)
3
Paik H.J., Leung J.S., Morgan S.H., Parker J. Global gravity survey by an orbiting gravity gradiometer. Eos, Transactions American Geophysical Union. 1988, vol. 69, no. 48, pp. 1601–1611.
(check this in PDF content)
4
Forward R.L., Bell C.C., Lahue P.M., Mallove E.F., Rouse D.W. Development of a rotating gravity gradiometer for earth orbit applications (AAFE). Available at: http://ntrs.nasa.gov/archive/nasa/casi.ntrs. nasa.gov/19730023608.pdf (accessed 19.12.2015).
(check this in PDF content)
5
Forward R., Bell C., Morris J. Rotating gravitational sensors. Available at: http://www. gravityresearchfoundation.org/pdf/awarded/1965/ forward_bell_morris.pdf (accessed: 19.12.2015).
(check this in PDF content)
6
Bell R.E. Gravity Gradiometry. Scientific American, 1998, pp. 74–79.
(check this in PDF content)
7
Beachy D. Bell Geospace Inc. takes a high-tech look at mining, oil and gas sites. Houston Business Journal. News. Measuring up, Jan 2, 2005.
(check this in PDF content)
8
Metzger E.H. Development Experience of a Moving Base Gravity Gradiometer and Discussion of Future Applications. Proceedings of 14th Annual Gravity Gradiometry Conference, Colorado Springs, 1986, 392 p.
(check this in PDF content)
9
Carroll K.A. Detectability of Natural Resource Structures by a Low-Noise Airborne Gravity Gradiometer System. AGU Fall Meeting Abstracts, 2009, vol. 1, pp. 8.
(check this in PDF content)
10
Dransfield M. Airborne gravity gradiometry in the search for mineral deposits. Proceedings of exploration, 2007, vol. 7, pp. 341–354.
(check this in PDF content)
11
Araya A., Kanazawa T., Shinohara M., Yamada T., Fujimoto H., Iizasa K., Ishihara T. A gravity gradiometer to search for submarine ore deposits. Underwater Technology (UT), 2011 IEEE Symposium on and 2011 Workshop on Scientific Use of Submarine Cables and Related Technologies (SSC), 2011, pp. 1–3.
(check this in PDF content)
12
Gravity Gradiometry. Available at: http://www. lockheedmartin.com/us/products/gravity-gradiometry. html (accessed: 19.12.2015).
(check this in PDF content)
13
Welker T.C., Pachter M., Huffman R.E. Gravity gradiometer integrated inertial navigation. Control Conference, 2013, pp. 846–851.
(check this in PDF content)
14
Using Gravity to Detect Underground Threats. Available at: http://www.lockheedmartin.com/us/ mst/features/2010/100714-using-gravity-to-detectunderground-threats-.html (accessed: 19.12.2015).
(check this in PDF content)
15
Lockheed martin gravity systems. Cutting-Edge Resource and Exploration Technologies. Available at: http://www.lockheedmartin.com/content/dam/lockheed/ data/ms2/documents/LM-Gravity-Systems-brochure.pdf (accessed: 19.12.2015).
(check this in PDF content)
16
Annecchione M., Moody M., Carroll K., Dickson D., Main B. Benefits of a high performance airborne gravity gradiometer for resource exploration. Proceedings of Exploration 07: Fifth Decennial International Conference on Mineral Exploration, 2007, pp. 889–893.
(check this in PDF content)
17
Christensen A.N., Dransfield M.H., Van Galder C. Noise and repeatability of airborne gravity gradiometry. First break, 2015, vol. 33, no. 4, pp. 55–63.
(check this in PDF content)
18
Murphy C.A. Exploring prospects with FTG Gravity. 9-th Biennial International Conference & Exposition on Petroleum Geophysics. Hyderabad, 2012, p. 141.
(check this in PDF content)
19
Mataragio J. Exploring for Gold and Geothermal Systems in the Great Basin Using Full Tensor Gravity Gradiometry. GRC Transactions, 2012, vol. 36, pp. 1009–1012.
(check this in PDF content)
20
Süss F. The small original Eötvös – torsion balance. Budapest, 1928, 13 p.
(check this in PDF content)
21
Miller A.H. The Theory and Operation of the Eötvös Torsion Balance with Plates I, II, III. Journal of the Royal Astronomical Society of Canada, 1934, vol. 28, pp. 1–31.
(check this in PDF content)
22
Bell R.E., Hansen R.O. The rise and fall of early oil field technology: The torsion balance gradiometer. The Leading Edge, 1998, vol. 17, no. 1, pp. 81–83.
(check this in PDF content)
23
Fischbach E. Geophysical Tests for IntermediateRange Forces. Purdue univ lafayette in, 1993.
(check this in PDF content)
24
Adelberger E.G., Gundlach J.H., Heckel B.R., Hoedl S., Schlamminger S. Torsion balance experiments: A low-energy frontier of particle physics. Progress in Particle and Nuclear Physics, 2009, vol. 62, no. 1, pp. 102–134.
(check this in PDF content)
25
Tomarken S. Gravitational Torsion Balance. Available at: http://www.hep.vanderbilt.edu/~johnswe/ classes/225a/cavmain.pdf (accessed 19.10.2016). doi: org/10.1063/1.4944709
(check this in PDF content)
26
Steiner G. Gravitational torsion balance. Houston, 1925, 17 p.
(check this in PDF content)
27
Liu H., Pike W.T., Dou G. A seesaw-lever forcebalancing suspension design for space and terrestrial gravity-gradient sensing. Journal of Applied Physics, vol. 119, no 12, p. 124508. doi: org/10.1063/1.4944709
(check this in PDF content)
28
Essen M.C. Capacitive MEMS-based sensors: Thermo-mechanical stability and charge trapping. Enschede, University of Twente, 2009, 229 p.
(check this in PDF content)
29
Rogers M. An Investigation into the Feasibility of using a Modern Gravity Gradient Instrument for Passive Aircraft Navigation and Terrain Avoidance. Air Force Institute of Technology, Ohio, 2009, 165 p.
(check this in PDF content)
30
Streland A. Going deep: a system concept for detecting deeply burie d facilities from space. Air War College, 2003, 64 p.
(check this in PDF content)
31
Grujic M. Data processing requirements for an 1 Eo/√Hz AGG system. 22nd International Geophysical Conference and Exhibition. Brisbane, 2012, pp. 1–4.
(check this in PDF content)
32
Murphy C.A., Brewster J., Robinson J. Evaluating Air-FTG survey data: bringing value to the full picture. Preview, 2007, vol. 126, pp. 24–28.
(check this in PDF content)
33
Dransfield M. Advances in airborne gravity gradiometry at Fugro Airborne Surveys. EGM 2010 International Workshop Adding new value to Electromagnetic. Gravity and Magnetic Methods for Exploration. Capri, 2010, 5 p.
(check this in PDF content)
34
Murphy C.A. Exploring prospects with FTG. 9 Biennial International Conference and Exposition on Petroleum Geophysics, Hederabat, 2012, p. 141.
(check this in PDF content)
35
Dransfield M.H., Christensen A.N. Performance of airborne gravity gradiometers. The Leading Edge, 2013, vol. 32, no. 8, pp. 908–922. doi: org/10.1190/tle32080908.1
(check this in PDF content)
36
NEOS and Lockheed Martin to Develop ‘New Generation’ Sensor. NEOS press release, July 6, 2016. Available at: //www.neosgeo.com/wpcontent/uploads/2016/08/NEOS_Release_FTG-PlusSensor_160706.pdf (accessed 19.10.2016).
(check this in PDF content)
37
Christophe B., Marque J-P., Foulon B. Accelerometers for the ESA GOCE mission: one year of in-orbit results. GPHYS SYMPOSIUM. Paris, 2010, 26 p.
(check this in PDF content)
38
Drinkwater M.R., Haagmans R., Muzi D., Popescu A., Floberghagen R., Kern M., Fehringer M. The GOCE gravity mission: ESA’s first core Earth explorer. Proceedings of the 3rd international GOCE user workshop. Noordwijk, 2006, pp. 6–8.
(check this in PDF content)
39
GOCE. Fact and figures. European space agency. Available at: http://www.esa.int/Our_Activities/ Observing_the_Earth/GOCE/Facts_and_figures (accessed 19.10.2016).
(check this in PDF content)
40
Gravity Field and Steady-State Ocean Circulation Explorer. Wikipedia. Available at: https://en.wikipedia. org/wiki/Gravity_Field_and_Steady-State_Ocean_ Circulation_Explorer (accessed 19.10.2016).
(check this in PDF content)
41
Douch K., Foulon B., Christophe B., Panet I. A new planar electrostatic gravity gradiometer for airborne surveys. Journal of Geodesy, 2013, vol. 89, no 12, pp. 1216–1219.
(check this in PDF content)
42
Marque J.P., Christophe B., Liorzou F., Bodovillé G., Foulon B., Guérard J., Lebat V. The ultra sensitive accelerometers of the ESA GOCE mission. The 59th International Astronautical Congress, Glasgow, 2008. Available at: http://onera-windtunnel.com/dmph/ goce/IAC-08-B1.3.7.pdf (accessed 19.07.2016).
(check this in PDF content)
43
Silvestrin P. Control and navigation aspects of the new Earth observation missions of the European Space. Annual Reviews in Control, 2005, vol. 29, no. 2, pp. 247– 260. doi: org/10.1016/j.arcontrol.2005.05.004
(check this in PDF content)
44
Christophe B., Marque J-P., Foulon B. Accelerometers for the ESA GOCE mission: one year o in-orbit results. Available at: https://earth.esa.int/c/ document_library/get_file?folderId=14168&name=DL FE-678.pdf (accessed 19.07.2016).
(check this in PDF content)
45
Schiermeier Q. Gravity mission to launch. Nature, 2009, vol. 458. Available at: http://www.nature. com/news/2009/090311/full/458133a.html (accessed 19.10.2016). doi: org/10.1038/458133a
(check this in PDF content)
46
Buckler G. Eye in the sky spots diamonds in the rough. The Globe and Mail, Mar. 13, 2009. Available at: http://www.theglobeandmail.com/report-on-business/eyein-the-sky-spots-diamonds-in-the-rough/article17993239 (accessed 19.10.2016).
(check this in PDF content)
47
Wermuth M.K. Gravity Field Analysis from the Satellite Missions CHAMP and GOCE. Technische Universität München, 2008, 100 p.
(check this in PDF content)
48
Drennan R. Ready to market. Mississauga News, Jan 30, 2015. Available at: http://www.mississauga. com/news-story/5295543-ready-to-market (accessed 19.10.2016).
(check this in PDF content)
49
Anstie J. Preparation for flight testing the VK1 gravity gradiometer. Airborne Gravity 2010, 2010, pp. 5–12.
(check this in PDF content)
50
Flokstra J. Gravity Gradient Sensor Technology for future planetary missions. Enschede, University of Twente, 2005, 12 p.
(check this in PDF content)
51
Carroll K. Gravity gradiometry for lunar surface exploration. 42nd Lunar and Planetary Science Conference, 2011. Available at: http://www.lpi.usra.edu/ meetings/lpsc2011/pdf/1108.pdf (accessed 19.10.2016).
(check this in PDF content)
52
Spencer H. Lunette: Lunar Farside Gravity Mapping by Nanosat. 19th Annual AIAA/USU Conference on Small Satellites, 2005. Available at: http:// digitalcommons.usu.edu/cgi/viewcontent.cgi?article=163 5&context=smallsat (accessed 19.10.2016).
(check this in PDF content)
53
Allen J. Micro-System Inertial Sensing Technology Overview. Albuquerque, New Mexico, 2009, 32 p.
(check this in PDF content)
54
Tutorial: Noise in micromechanical systems. MEMS material. Available at: http://www.kaajakari. net/~ville/research/tutorials/tutorials.shtml (accessed 19.10.2016).
(check this in PDF content)
55
Li J., Fang J., Du M., Dong H. Analysis and fabrication of a novel MEMS pendulum angular accelerometer with electrostatic actuator feedback. Microsystem technologies, 2013, vol. 19, no. 1, pp. 9–16. doi: org/10.1007/s00542-012-1630-x
(check this in PDF content)
56
Yazdi N., Ayazi F., Najafi K. Micromachined inertial sensors. Proceedings of the IEEE, 1998, vol. 86, no. 8, pp. 1640–1659.
(check this in PDF content)
57
Cuperus R. MEMS based gravity gradiometer for Space Application. Available at: https://escies. org/download/webDocumentFile?id=7188 (accessed 19.10.2016).
(check this in PDF content)
58
Simone A. Design and realization of a setup for mechanical tests on a MEMS based micro gravity-gradiometer. Delft, Delft University of Technology, 2008, 89 p.
(check this in PDF content)
59
Selig A. Development of a Micro-gradiometer for Planetary Gravity Field Mapping. Available at: http:// jupiter-europa.cesr.fr/static_pages/presentations/Berlin/ SRON_gravity.pdf (accessed 19.10.2016).
(check this in PDF content)
60
Ghose K. MEMS Inertial Sensor to Measure the Gravity Gradient Torque in Orbit. Pour l’obtention du grade de docteur ès sciences école polytechnique fédérale de Lausanne, 2012, no. 5231. Available at: http:// infoscience.epfl.ch/record/169608/files/EPFL_TH5231. pdf (accessed 19.10.2016).
(check this in PDF content)
61
Murphy C.A. The Air-FTG airborne gravity gradiometer system. ASEG-PESA Airborne Gravity 2004 Workshop, 2004, pp. 7–14.
(check this in PDF content)
62
Metzger E.H., Jirdtano A., Affleck C. Satellite borne gravity gradiometer study. Buffalo, NASA Goddard space flight center, 1976, 62 p.
(check this in PDF content)
63
Gerber M.A. Gravity gradiometry-something new in inertial navigation. Astronautics Aeronautics, 1978, vol. 16, pp. 18–26.
(check this in PDF content)
64
Richeson J.A. Gravity gradiometer aided inertial navigation within non-GNSS environments. ProQuest, 2008, 438 p.
(check this in PDF content)
65
Jekeli C. Precision free-inertial navigation with gravity compensation by an onboard gradiometer. Journal of guidance, control, and dynamics, 2006, vol. 29, no. 3, pp. 704–713. doi: org/10.2514/1.15368
(check this in PDF content)
66
Flokstra J., Cuperus R., Wiegerink R.J., van Essen M.C. MEMS based gravity gradiometer for future planetary missions. Cryogenics, 2009, vol. 49, issue 11, pp. 665–668. doi: org/10.1016/j.cryogenics.2008.12.019
(check this in PDF content)
67
Matthews R. Mobile Gravity Gradiometry. Western, University of Western, 2002, 429 p.
(check this in PDF content)
68
Touboul P., Willemenot E., Foulon B., Josselin V. Accelerometers for CHAMP, GRACE and GOCE space missions: synergy and evolution. Bollettino di geofisica teorica ed applicata, 1999, vol. 40, no. 3–4, pp. 321–327.
(check this in PDF content)
69
Lenoira B., Lévya A., Foulona B., Lamineb B., Christophea B., Reynaudb S. Electrostatic accelerometer with bias rejection for gravitation and Solar System physics. Advances in Space Research, 2011, vol. 48, pp. 1248–1257. doi: org/10.1016/j.asr.2011.06.005
(check this in PDF content)
70
Berman D. Effects of Mechanical Imperfections on Performance of a Rotating Gravity Gradiometer. Journal of Spacecraft and Rockets, 1968, vol. 5, no. 10, pp. 1193–1198.
(check this in PDF content)
71
Stibrany P., Carroll K.A. The microsat way in Canada. Proc. 11th CASI Conference on Astronautics, 2001, 10 p.
(check this in PDF content)
72
Gravity gradient earth sensor experiment on rexus 11. Available at: https://infoscience.epfl.ch/ record/187717/files/ghose%20ESA%20Thun%202013. pdf (accessed 12.11.2016).
(check this in PDF content)
73
Allasio A., Muzi D., Vinai B., Cesare S., Catastini G., Bard M., Marque J.P. GOCE: space technology for the reference Earth gravity field determination. Proceedings of the European Conference for AeroSpace Sciences, 2009, 13 p.
(check this in PDF content)
74
Vasilescu G. Electronic noise and interfering signals: principles and applications. Springer Science & Business Media, 2006, 709 p.
(check this in PDF content)
75
Carroll K.A. Near-Term Lunar Surface Gravimetry Science Opportunities. Annual Meeting of the Lunar Exploration Analysis Group, Maryland, 2015, 31 p.
(check this in PDF content)
76
Carroll K.A., Spencer H., Zee R.E. An Asteroid Lander/Rover for Asteroid Surface Gravity Surveying. 30-th Annual AIAA/USU Conference on small satellites, 2016. Available at: http://digitalcommons.usu.edu/ cgi/viewcontent.cgi?article=3408&context=smallsat (accessed 12.11.2016).
(check this in PDF content)
77
Steiger C., Romanazzo M., Emanuelli P. P., Floberghagen R., Fehringer M. The Deorbiting of ESA’s Gravity Mission GOCE–Spacecraft Operations in Extreme Drag Conditions. Proceedings SpaceOps, Pasadena, USA, 2014, 12 p.
(check this in PDF content)
78
McBarnet, A. Gravity gradiometry has graduated! OE Digital. Saturday, 01 June 2013, http:// www.oedigital.com/geoscience/item/3201-gravitygradiometry-has-graduated (accessed 12.11.2016).
(check this in PDF content)