Abstract
Intentional interferences mainly include multipath interference and pulse interference. We studied multipath interference in the last chapter. In this chapter we study the suppression of the other type of intentional interference—the pulse interference.
References
Hegarty C, Kim T, Ericson S, et al. Methodology for determining compatibility of GPS L5 with existing systems and preliminary results. In: Proceedings of the Institute of Navigation annual meeting. 1999. no 1, p. 1–10.
Gao GX, Heng L, Hornbostel A, et al. DME/TACAN interference mitigation for GNSS: algorithms and flight test result. GPS Solut. 2013;17(4):561–73.
Grabowski J, Hegarty C. Characterization of L5 receiver performance using digital pulse blanking. In: Proceedings of Institute of Navigation global positioning systems conference (ION GPS), Portland, OR. 2002. p. 1630–5.
Hegarty C, Van Dierendonck AJ, Bobyn D, et al. Suppression of pulse interference through blanking. In: Proceedings of IAIN world congress in association with the US ION 56th annual meeting, San Diego. 2000.
Bastide F. Analysis of the feasibility and interests of Galileo E5a/E5b and GPS L5 signals for use with civil aviation. In: Ecole Nationale de I’Aviation Civile (ENAC). 2004.
Musumeci L, Samson J, Dovis F. Performance assessment of pulse blanking mitigation in presence of multiple distance measuring equipment/tactical air navigation interference on global navigation satellite systems signals. Radar Sonar Navig IET. 2014;8(6):647–57.
Gao GX. DME/TACAN interference and its mitigation in L5/E5 bands. In: Proceedings of Institute of Navigation global navigation satellite systems conference (ION GNSS), Fort Worth, Texas, USA. 2007.
Denks H, Hornbostel A, Chopard V, et al. GNSS receiver testing by hardware simulation in an standardized pulsed and CW interference environment. In: Proceedings of European navigation conference on global navigation satellite systems (ENC GNSS), Naples. 2009.
Palubinskas M, Gunther C. Interference mitigation in GNSS. Technical University of Munich; 2011.
Raimondi M, Julien O, Macabiau C. Implementation issues and performance characterization of FDAF for a GNSS receiver. In: European navigation conference on global navigation satellite systems (ENC GNSS). 2008.
Gao GX, De Lorenzo D, Chen A, et al. Galileo GIOVE-A broadcast E5 codes and their application to acquisition and tracking. In: ION NTM conference, San Diego, California. 2007.
Cuntz M, Heckler M, Erker S, et al. Navigating in the Galileo test environment with the first GPS/Galileo multi-antenna-receiver. In: 2010 5th ESA workshop on satellite navigation technologies and European workshop on GNSS signals and signal processing (NAVITEC). IEEE; 2010.
Fang W, Wu RB, Wang WY, et al. DME pulse interference suppression based on NLS for GPS. In: International conference on signal processing proceedings. 2012. p. 174–8.
Anyaegbu E, Brodin G, Cooper J, et al. An integrated pulsed interference mitigation for GNSS receivers. J Navig. 2008;61(2):239–56.
Paonni M, Jang JG, Eissfeller B, et al. Innovative interference mitigation approaches: analytical analysis, implementation and validation. In: 2010 5th ESA workshop on satellite navigation technologies and European workshop on GNSS signals and signal processing (NAVITEC). IEEE; 2010. p. 1–8.
Musumeci L, Samson J, Dovis F. Experimental assessment of distance measuring equipment and tactical air navigation interference on GPS L5 and Galileo E5a frequency bands. In: 2012 6th ESA workshop on satellite navigation technologies and European workshop on GNSS signals and signal processing (NAVITEC). IEEE; 2012. p. 1–8.
Musumeci L, Dovis F. Use of the wavelet transform for interference detection and mitigation in global navigation satellite systems. Int J Navig Obs. 2014;1–14.
Wu R, Wang W, Li L, et al. Distance measuring equipment interference suppression based on parametric estimation and wavelet-packet transformation for global navigation satellite systems. IEEE Trans Aerosp Electron Syst. 2016;52(4):1607–17.
Hu T, Wang L, Wu R. Study on wideband and pulse interference mitigation techniques with RAW BD data. In: Proceedings of the 28th international technical meeting of the satellite division of the Institute of Navigation (ION GNSS+2015). 2015.
Zhang Q, Zheng YB, Wilson SG. Excision of distance measuring equipment interference from radio astronomy signals. Astron J. 2005;129:2933–9.
Yin T, Viberg M, Weber DIC. Simulator of pulsed interference environment of an airborne GNSS receiver. Chalmers University of Technology; 2007.
Besson O, Stoica P. Nonlinear least squares approach to frequency estimation and detection for sinusoidal signals with arbitrary envelope. Digit Signal Proc. 1999;9:45–56.
Li J, Wu R. An efficient algorithm for time delay estimation. IEEE Trans Signal Process. 1998;46(8):2231–5.
Daubechies I. Ten lectures on wavelets. In: Volume 61 of proceedings of the CBMS-NSF regional conference series in applied mathematics. Philadelphia, PA: SIAM; 1992.
Abry P. Ondelettes et Turbulences. Paris: Diderot Editeur; 1997.
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Wu, R., Wang, W., Lu, D., Wang, L., Jia, Q. (2018). Pulse Interference Suppression Techniques. In: Adaptive Interference Mitigation in GNSS. Navigation: Science and Technology. Springer, Singapore. https://doi.org/10.1007/978-981-10-5571-3_6
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DOI: https://doi.org/10.1007/978-981-10-5571-3_6
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