Combined application of high precision positioning methods using GLONASS and GPS signals
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- 作者:A. P. Karpik ; L. A. Lipatnikov
- 刊名:Gyroscopy and Navigation
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:6
- 期:2
- 页码:109-114
- 全文大小:167 KB
- 参考文献:1.Surnin, Yu.V., On the establishment of an active coordinate-gravity basis over a limited area of the Earth鈥檚 surface using GLONASS/GPS measurements, VII Mezhdunar. nauchn. congress, Novosibirsk, 19鈥?9 April, 2011, Novosibirsk: SGGA, 2011, vol.1, part 2, pp. 203鈥?14.
2.Lisitskii, D.V., Prospects for the development of cartography: from the system of 鈥淒igital Earth鈥?to the system of virtual georeality. Vestnik SGGA, Novosibirsk: SGGA, 2013, no. 2(22), pp. 8鈥?6.
3.Dixon, K., StarFire: A global SBAS for sub-decimeter precise point positioning, Proc. 19th Int. Tech. Meeting of the Satellite Division of the Institute of Navigation (ION GNSS 2006), Fort Worth, TX, Sept. 2006, pp. 2286鈥?296. http://鈥媤ww.鈥媑dgps.鈥媙et/鈥媠ystem-desc/鈥媝apers/鈥媠tarfire.鈥媝df
4.Visser, H., Capabilities of the global high-accuracy service OmniSTAR HP for mapping and creation of GIS projects, Geoprofi, 2008, no. 3, pp. 56鈥?9. http://鈥媤ww.鈥媑eoprofi.鈥媟u/鈥媎efault.鈥媋spx?鈥媘ode=鈥媌inary&鈥媔d=鈥?51
5.Chen, X. et al., Trimble RTX, an innovative new approach for network RTK, Proc. ION GNSS, 2011, Portland, Oregon, 19鈥?3 Sept. 2011, pp. 2214鈥?219. http://鈥媤ww.鈥媡rimble.鈥媍om/鈥媝ositioning-services/鈥媝df/鈥媤hitepaper_鈥媟tx_鈥媐ast.鈥媝df
6.Leandro, R., Landau, H., Nitschke, M., et al., Realtime extended GNSS positioning. A new generation of centimeter-accurate networks, GPS World, 2012, vol. 23, no. 7, pp. 36鈥?2, http://鈥媏ditiondigital.鈥媙et/鈥媝ublication/鈥?鈥媔=鈥?19153
7.Hofmann-Wellenhof, B., Lichtenegger, H., and Wasle, E., GNSS 鈥?Global Navigation Satellite Systems: GPS, GLONASS, Galileo and more. Wien: Springer-Verlag, 2008.
8.Landau, H., Vollath, U., and Chen, X., Virtual reference stations versus broadcast solutions in network RTK 鈥?advantages and limitations, GNSS, Graz, 2003, http://鈥媡rl.鈥媡rimble.鈥媍om/鈥媎ocushare/鈥媎sweb/鈥婫et/鈥婦ocument-183158/鈥?20鈥媀RS%20鈥媣s%20鈥婩KP%20鈥?-20GNSS2003.鈥媝df
9.W眉bbena, G., Schmitz, M., and Bagge, A., PPP-RTK: Precise point positioning using state-space representation in RTK networks, Proc. 18th Int. Tech. Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2005), Long Beach, CA, Sept., 2005, pp. 2584鈥?594. http://鈥媍ors-tr.鈥媔ku.鈥媏du.鈥媡r/鈥婣utoPlay/鈥媑eopp_鈥媝df/鈥媔on2005_鈥媐w_鈥媡r.鈥媝df
10.W眉bbena, G. and Bagge, RTCM Message Type 59 鈥?FKP for transmission of FKP. Version 1.1 Geo++GmbH, 2006. http://鈥媤ww.鈥媑eopp.鈥媎e/鈥媎ownload/鈥媑eopp-rtcm-fkp59-1.鈥?.鈥媝df
11.Brown, N. et al., Advances in ambiguity resolution for RTK applications using the new RTCM V3.0 master-auxiliary messages, Proc. 18th Int. Tech. Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2005), Long Beach, CA, Sept. 2005, pp. 73鈥?0.
12. IGS Real-time service. http://鈥媌eta.鈥媔gs.鈥媜rg/鈥媟ts/鈥媝roducts
13.Harima, K., Choy, S., LI, Y., Grinter, T., Choudhury, M., Rizos, C., Wakabayashi, Y., and Satoshi, K., Performance of real-time precise point positioning using MADOCA-LEX augmentation messages, FIG. http://鈥媤ww.鈥媐ig.鈥媙et/鈥媝ub/鈥媘onthly_鈥媋rticles/鈥媕uly_鈥?014/鈥媓arima_鈥媏t_鈥媋l.鈥媝df
14.Chen, K. and Gao, Y., Real-time precise point positioning using single frequency data, Proc. 18th Int. Tech. Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2005), Long Beach, CA, Sept. 2005, pp. 1514鈥?523.
15.Van Der Marel, H. and de Baker P.F., GNSS solutions: Singleversus dual-frequency precise point positioning, Inside GNSS, 2012. http://鈥媤ww.鈥媔nsidegnss.鈥媍om/鈥媋uto/鈥媕ulyaug12-Solutions.鈥媝df
16.Beran, T., Langley, R.B., Bisnath, S.B. and Serrano, L., High-accuracy point positioning with low-cost GPS receivers: How good can it get? L. Serrano, Proc. 18th Int. Tech. Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2005), Sept. 13鈥?6, 2005, pp. 1524鈥?534. http://鈥媑auss.鈥媑ge.鈥媢nb.鈥媍a/鈥媝apers.鈥媝df/鈥媔ongnss2005.鈥媌eran.鈥媝df
17.Podkorytov, A.N., High-accuracy positioning in absolute mode in GNSS, using the resolution of integer ambiguity of pseudo phase measurements, Trudy MAI, 2011, Is. 59. http://鈥媤ww.鈥媘ai.鈥媟u/鈥媠cience/鈥媡rudy/鈥媝ub-lished.鈥媝hp?鈥婭D=鈥?4845
18.Karpik, A.P., Dyubanov, A.V., and Tverdovskii, O.V., Review of the state, use and development of networks of reference stations on the basis of the GLONASS infrastructure in Russia, Interekspo GEO-Sibir鈥?2012, VIII Mezhdunar. nauch. kongr., 10鈥?0 April, 2012, Novosibirsk: Mezhdunar. nauch. konf. 鈥淕eodeziya, geoinformatika, kartografiya, marksheideriya鈥?/em>, sbornik materialov vol. 1, Novosibirsk: SGGA, 2012, pp. 184鈥?90.
19.Rizos, C., Janssen, V., Roberts, C., and Grinter, T., Precise point positioning: Is the era of differential GNSS positioning drawing to an end? FIG Working Week 2012, Knowing to Manage the Territory, Protect the Environment, Evaluate the Cultural Heritage, Rome, Italy, 6鈥?0 May, 2012. www.鈥媐ig.鈥媙et/鈥媝ub/鈥媐ig2012/鈥媝apers/鈥媡s09b/鈥婽S09B_鈥媟izos_鈥媕anssen_鈥媏t_鈥媋l_鈥?909.鈥媝df
20.Global Ionosphere Maps Produced by CODE.
21.Informatsionnyi tsentr navigatsionnykh popravok dlya pol鈥檢ovatelei鈥?GPS i GLONASS(Information Center of Navigational Corrections for GPS and GLONASS Users. http://鈥媤ww.鈥媙anotech-express.鈥媟u/鈥媝rojects/鈥婲avigation/鈥媔ndex.鈥媓tml
22. IERS Conventions. Technical Note no. 36. International Earth Rotation and Reference Systems Service, 2010. http://鈥媤ww.鈥媔ers.鈥媜rg/鈥媙n_鈥?1216/鈥婼haredDocs/鈥婸ublikationen/鈥婨N/鈥婭ERS/鈥婸ublications/鈥媡n/鈥婽echnNote36/鈥媡n36,templateId=鈥媟aw,property=鈥媝ublicationFile.鈥媝df/鈥媡n36.鈥媝df
23.Strukov, A.A., Analyzing accuracy in determining vectors of very long baselines using GPS measurements, Vestnik SGGA, 2011, Is. 2 (15), pp. 30鈥?8.
24. RTKLIB: An Open Source Program Package for GNSS Positioning. http://鈥媤ww.鈥媟tklib.鈥媍om
25. Sistema vysokotochnogo opredeleniya efemerid i vremennykh popravok (SVOEVP) (High-Precision Ephemeris and Time Correction Estimation System). http://鈥媤ww.鈥媑lonass-svoevp.鈥媟u
26. UNAVCO Plate Motion Calculator. http://鈥媤ww.鈥媢navco.鈥媜rg/鈥媠oftware/鈥媑eodetic-utilities/鈥媝late-motion-calculator/鈥媝late-motion-calculator.鈥媓tml - 作者单位:A. P. Karpik (1)
L. A. Lipatnikov (1)
1. Siberian State Academy of Geodesy, Novosibirsk, Russia - 刊物类别:Engineering
- 刊物主题:Russian Library of Science
Geophysics and Geodesy
Aerospace Technology and Astronautics - 出版者:MAIK Nauka/Interperiodica distributed exclusively by Springer Science+Business Media LLC.
- ISSN:2075-1109
文摘
An approach aimed at providing compatibility and complementarity of real time kinematic (RTK) and precise point positioning (PPP), the well-known methods for high-precision positioning of mobile objects, using low-cost GLONASS/GPS equipment is proposed. Introduction of advanced modifications of these methods does not involve any changes in the existing ground infrastructure.