DOI: 
10.22389/0016-7126-2015-901-7-2-7
1 Karpik A.P.
2 Ganagina I.G.
3 Kosarev N.S.
4 Goldobin D.N.
Year: 
№: 
901
Pages: 
2-7

Siberian State University of Geosystems and Technologies

1, 
2, 
3, 
4, 
Abstract:
In article the research single frequency GNSS receiver of OEM module NV08C-CSM Company NVS Technology AG in mode of RTK and static are presented. In these experiments dates of permanent base station located in Novosibirsk region are used. Analyses experiments are made. Possibility of using OEM-modules for application in geodesy and cartography tasks are proved.
References: 
1.   Antonovich K.M., Strukov A.A. Sravnenie rezul'tatov linejnyh izmerenij, vypolnennyh sputnikovymi i tradicionnymi metodami geodezii. Sb. materialov Mezhd. nauch. kongr. «GEO-Sibir'–2010», Novosibirsk: izd. SGGA: 2010, Vol. 1, pp. 38-42.
2.   Antonovich K.M., Kosarev N.S., Pershin D.Yu. Absolyutnoe kinematicheskoe pozicionirovanie odnochastotnym fazovym GNSS-priemnikom, integrirovannym s inercial'nymi datchikami. Izvestiya vuzov. Geodeziya i aehrofotos"emka, 2013, no. 4, pp. 3-8.
3.   Antonovich K.M., Kosarev N.S., Lipatnikov L.A. Kontrol' fazovyh izmerenij GNSS-priemnika s atomnymi chasami. Vestnik SGGA, Novosibirsk: SGGA, 2014, 3 (27). pp. 3-20.
4.   Ganagina I.G., Kosarev N.S., Temirbulatov R.F. Vybor GNSS apparatury dlya realizacii tochnogo pozicionirovaniya podvizhnyh ob"ektov. Interehkspo GEO-Sibir'–2014: H Mezhdunar. nauch. kongr., 8–18 aprelya 2014 g., Novosibirsk: Mezhdunar. nauch. konf. «Geodeziya, geoinformatika, kartografiya, markshejderiya»: Sb. materialov v 2-h tomah, Novosibirsk: SGGA, 2014, Vol. 1, no. 2, pp. 118-123.
5.   Karpik A.P., Ganagina I.G., Goldobin D.N., Kosarev N.S. Metodologicheskie principy sistemy tochnoj sputnikovoj navigacii podvizhnyh ob"ektov s ispol'zovaniem nazemnoj infrastruktury GLONASS. Izvestiya vuzov. Geodeziya i aehrofotos"emka, 2013, no. 5, pp. 69–74.
6.   Karpik A.P., Lipatnikov L.A. Obespechenie vzaimodopolnyaemosti metodov vysokotochnogo pozicionirovaniya po signalam GLONASS i GPS. Giroskopiya i navigaciya, 2014, no. 4 (87), pp. 45–55.
7.   Kosarev N.S., Shcherbakov A.S. Statisticheskij analiz tochnosti opredeleniya polozhenij sputnikov sistem GLONASS i GPS. Vestnik SGGA, Novosibirsk: SGGA, 2014, 2 (26). pp. 9–18.
8.   Kupriyanov A.O., Klimovskij A.M. Ehksperimental'naya ocenka ehffektivnosti primeneniya rezhima kinematiki v real'nom vremeni dlya resheniya navigacionno-geodezicheskih zadach. Izvestiya vuzov. Geodeziya i aehrofotos"emka, 2012, no. 1, pp. 3–10.
9.   Kupriyanov A.O., Klimovskij A.M. Ehksperimental'nye issledovaniya dinamicheskogo rezhima kinematiki v real'nom vremeni (RTK) otnositel'no dvizhushchejsya bazovoj stancii. Izvestiya vuzov. Geodeziya i aehrofotos"emka, 2012, no. 2, pp. 17-20.
10.   RTKLIB ver. 2.4.2 Manual. URL: http://www.rtklib.com/prog/rtklib_2.4.2.zip
Citation:
Karpik A.P., 
Ganagina I.G., 
Kosarev N.S., 
Goldobin D.N., 
(2015) Accuracy characteristics research of single frequency GNSS-receiver with using GLONASS ground infrastructure. Geodesy and cartography = Geodezia i Kartografia, (7), pp. 2-7. (In Russian). DOI: 10.22389/0016-7126-2015-901-7-2-7