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Wireless Personal Communications

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01-05-2015

Continuous Wave Interference Effects on Ranging Performance of Spread Spectrum Receivers

Authors: Zhi Qu, Jun Yang, Jianyun Chen

Published in: Wireless Personal Communications | Issue 1/2015

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Abstract

Continuous wave interference (CWI) can induce significant ranging error for a spread spectrum receiver. Since both the spread spectrum signal and CWI are deterministic signals but truncated by the integrate and dump filters, deterministic signal models are built, and then their continuous frequency spectrums and specific signal forms in the processing flow are analyzed. This paper provides analytical expressions for code tracking performance of ranging receivers using coherent early minus late discriminators. The impacts of interference to signal power ratio (ISR), front-end bandwidth, integration time and early-late spacing on ranging bias are taken into account. According to the property of pseudo-random noise (PRN) code, the average magnitude of the code frequency spectrum is presented to investigate the general properties of ranging bias, and the magnitude fluctuations around the average are considered to analyze the properties of ranging bias with specific PRN codes. It is shown that the ranging bias induced by CWI depends on ISR, interference frequency, initial phases, code properties, receiver parameters, etc. Meanwhile, the envelope magnitude of the code frequency spectrum is provided for an easy way of estimating the upper bound of ranging bias. The 32 GPS C/A codes are taken as examples to show their worst cases of ranging performance under CWI.

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Daher, J. K., Harris, J. M., & Wheeler, M. L. (1994). An evaluation of the radio frequency susceptibility of commercial GPS receivers. IEEE Aerospace and Electronic Systems Magazine, 9(10), 21–25.CrossRef

Landry, R. J., & Renard, A. (1997). Analysis of potential interference sources and assessment of present solutions for GPS/GNSS receivers. In Proceedings of the 4th international conference on integrated navigation systems (INS) (pp. 1–13).

Parkinson, B. W., Spilker, J. J., & Enge, P. (1996). Global positioning system: Theory and applications (Vol. 1). Washington, DC: American Institute of Aeronautics and Astronautics.CrossRef

Levitt, B. K. (1981). Carrier tracking loop performance in the presence of strong CW interference. IEEE Transactions on Communications, 29(6), 911–916.CrossRef

Sue, M. K. (1982). DSN RFI susceptibility model development program overview. JPL, Pasadena, CA, Deep Space Network Progress Report (pp. 42–68).

Karsi, M. F., & Lindsey, W. C. (2000). Effects of CW interference on phase-locked loop performance. IEEE Transactions on Communications, 48(5), 886–896.CrossRef

Sharawi, M. S., Akos, D. M., & Aloi, D. N. (2007). GPS C/N0 estimation in the presence of interference and limited quantization levels. IEEE Transactions on Aerospace and Electronic Systems, 43(1), 227–238.CrossRef

Balaei, A. T., Barnes, J., & Dempster, A. G. (2005). Characterization of interference effects on GPS signals carrier phase error. In Proceedings of the national biennial conference of the Spatial Science Institute, September 2005.

Balaei, A. T., Dempster, A. G., & Barnes, J. (2006). A novel approach in detection and characterization of CW interference of GPS signal using receiver estimation of C/N0. In Proceedings of 2006 IEEE/ION position, location, and navigation symposium (pp. 1120–1126).

10.

Balaei, A. T., Motella, B., & Dempster, A. (2008). A preventative approach to mitigating CW interference in GPS receivers. GPS Solutions, 12(3), 199–209.CrossRef

11.

Balaei, A. T., Dempster, A. G., & Presti, L. L. (2009). Characterization of the effects of CW and pulse CW interference on the GPS signal quality. IEEE Transactions on Aerospace and Electronic Systems, 45(4), 1418–1431.CrossRef

12.

Simon, M. K., Omura, J. K., Scholtz, R. A., & Levitt, B. K. (1985). Spread spectrum communications (Vol. 3). New York: Computer Science Press.

13.

Van Dierendonck, A. J., Fenton, P., & Ford, T. (1992). Theory and performance of narrow correlator spacing in a GPS receiver. Navigation, 38(3), 265–283.CrossRef

14.

Lopez-Almansa, J. M., & Pablos, P. A. (2000). Derivation of an analytical model for estimation of measurement error induced by an arbitrary disturbance on a coherent delay lock loop. Navigation, 47(4), 267–278.CrossRef

15.

Kolodziejski, K. R., & Betz, J. W. (1999). Effect of nonwhite Gaussian interference on GPS code tracking accuracy. The MITRE MTR 99B0000021R1, January 1999.

16.

Betz, J. W., & Kolodziejski, K. R. (2000). Extended theory of early-late code tracking for a bandlimited GPS receiver. Navigation, 47(3), 211–226.CrossRef

17.

Betz, J. W. (2000). Effect of narrowband interference on GPS code tracking accuracy. In Proceedings of ION NTM 2000 (pp. 16–27).

18.

Betz, J. W. (2001). Effect of partial-band interference on receiver estimation of C/N0: Theory. In Proceedings of ION NTM 2001 (pp. 817–828).

19.

Betz, J. W., & Kolodziejski, K. R. (2009). Generalized theory of code tracking with an early-late discriminator part I: Lower bound and coherent processing. IEEE Transactions on Aerospace and Electronic Systems, 45(4), 1538–1550.CrossRef

20.

Betz, J. W., & Kolodziejski, K. R. (2009). Generalized theory of code tracking with an early-late discriminator part II: Noncoherent processing and numerical results. IEEE Transactions on Aerospace and Electronic Systems, 45(4), 1551–1564.

21.

Jang, J., Paonni, M., & Eissfeller, B. (2012). CW Interference effects on tracking performance of GNSS receivers. IEEE Transactions on Aerospace and Electronic Systems, 48(1), 243–258.CrossRef

22.

Motella, B., Savasta, S., Margaria, D., & Dovis, F. (2008). An interference impact assessment model for GNSS signals. In Proceedings of ION GNSS 2008 (pp. 900–908).

23.

Motella, B., Savasta, S., Margaria, D., & Dovis, F. (2011). Method for assessing the interference impact on GNSS receivers. IEEE Transactions on Aerospace and Electronic Systems, 47(2), 1416–1431.CrossRef

24.

Liu, Y., Ran, Y., Ke, T., & Hu, X. (2011). Code tracking performance analysis of GNSS signal in the presence of CW interference. Signal Process, 91(4), 970–987.CrossRefMATH

25.

Liu, Y., Ran, Y., Ke, T., & Hu, X. (2012). Characterization of code tracking error of coherent DLL under CW interference. Wireless Personal Communications, 66(2), 397–417.CrossRef

26.

Qu, B., Wei, J., Tang, Z., Yan, T., & Zhou, Z. (2014). Analysis of combined effects of multipath and CW interference on coherent delay lock loop. Wireless Personal Communications, 77(3), 2213–2233.CrossRef

27.

Misra, P., & Enge, P. (2006). Global positioning systems: Signal measurements and performance (2nd ed.). Lincoln, MA: Ganga-Jamuna Press.

28.

Kaplan, E. D., & Hegarty, C. (2006). Understanding GPS: Principles and applications (2nd ed.). Norwood, MA: Artech Houch.

Title: Continuous Wave Interference Effects on Ranging Performance of Spread Spectrum Receivers
Authors: Zhi Qu
Jun Yang
Jianyun Chen
Publication date: 01-05-2015
Publisher: Springer US
Published in: Wireless Personal Communications / Issue 1/2015
Print ISSN: 0929-6212
Electronic ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-014-2236-7

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