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http://dx.doi.org/10.11003/JPNT.2017.6.1.1

A Performance Analysis of Multi-GNSS Receiver with Various Intermediate Frequency Plans Using Single RF Front-end  

Park, Kwi Woo (Department of Electronics Engineering, Chungbuk National University)
Chae, Jeong Geun (NAVCOURS Co., Ltd.)
Song, Se Phil (NAVCOURS Co., Ltd.)
Son, Seok Bo (NAVCOURS Co., Ltd.)
Choi, Seungho (Agency for Defense Development)
Park, Chansik (Department of Electronics Engineering, Chungbuk National University)
Publication Information
Journal of Positioning, Navigation, and Timing / v.6, no.1, 2017 , pp. 1-8 More about this Journal
Abstract
In this study, to design a multi-GNSS receiver using single RF front-end, the receiving performances for various frequency plans were evaluated. For the fair evaluation and comparison of different frequency plans, the same signal needs to be received at the same time. For this purpose, two synchronized RF front-ends were configured using USRP X310, and PC-based software was implemented so that the quality of the digital IF signal received at each front-end could be evaluated. The software consisted of USRP control, signal reception, signal acquisition, signal tracking, and C/N0 estimation function. Using the implemented software and USRP-based hardware, the signal receiving performances for various frequency plans, such as the signal attenuation status, overlapping of different systems, and the use of imaginary or real signal, were evaluated based on the C/N0 value. The results of the receiving performance measurement for the various frequency plans suggested in this study would be useful reference data for the design of a multi-GNSS receiver in the future.
Keywords
multi-GNSS receiver; RF front-end; frequency plan; USRP;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Dovis, F. 2015, GNSS Interference Threats and Countermeasures (London : Artech House). Ettus research [Internet], cited 2017 Feb 13, available from: http://www.ettus.com/
2 Falletti, E., Pini, M., & Lo Presti, L. 2010, Are carrier-to-noise algorithms equivalent in all situations?, INSIDE GNSS, pp.20-27. http://www.insidegnss.com/auto/IGM_gnsssol-janfeb10.pdf
3 GPSNETWORKING 2015a, LA20RPDC Line Amplifier 20 dB Gain Technical Product Data. https://www.gpsnetworking.com/system/datasheets/38/original/LA20RPDC%20Prod%20Spec2015.pdf
4 GPSNETWORKING 2015b, ADCBS1X4 Passive 1X4 GPS Splitter Technical Product Data. https://www.gpsnetworking.com/system/datasheets/49/original/LDCBS1X4%20Prod%20Spec%202015.pdf
5 Kaplan, E. D. & Hegarty, C. J. 2006, Understanding GPS: Principles and Applications, 2nd ed. (London: Artech House).
6 Park, K. W., Choi, Y. S., Lee, M. J., Lee, S. J., & Park, C. 2016a, Implementation and Performance Analysis of Multi-GNSS Signal Collection System using Single USRP, JPNT, 5, 11-22. http://dx.doi.org/10.11003/JPNT.2016.5.1.011
7 Park, K. W., Lee, S., Lee, M. J., & Park, C. 2016b, Design of a buffer management algorithm for USRP based real-time GNSS SDR, in 2016 KGS conference, Nov 2016, Jeju, Korea
8 Park, K. W., Suh, J. W., Seo, B. S., Lee, M. J., & Park, C. 2016c, Design of Signal Acquisition and Tracking Process Based on Multi-Thread for Real-time GNSS Software Receiver, in Proceedings of the ICL-GNSS 2016, June 28-30, 2016, Barcelona, Spain
9 NovAtel 2013, GPS-701-GGL and GPS-702-GGL USER GUIDE, OM-20000117. http://www.novatel.com/assets/Documents/Manuals/om-20000117.pdf
10 Ublox 2015, NEO/LEA-M8T u-blox M8 concurrent GNSS timing modules data sheet, UBX-14006196-R06. https://www.u-blox.com/sites/default/files/NEO-LEA-M8T-FW3_DataSheet_(UBX-15025193).pdf
11 Ziemer, R. E. & Tranter, W. H. 2006, Principles of Communications: System Modulation and Noise (Hoboken: John Wiley & Sons)