1 |
PENG X C, LI H, LU M Q. Research on the responses of GNSS tracking loop to intermediate spoofing[C]//Proc. of the 32nd International Technical Meeting of the Satellite Division of the Institute of Navigation, 2019.
|
2 |
IOANNIDES R T , PANY T , GIBBONS G . Known vulnerabilities of global navigation satellite systems, status, and potential mitigation techniques[J]. Proceedings of the IEEE, 2016, 104 (6): 1174- 1194.
doi: 10.1109/JPROC.2016.2535898
|
3 |
PSIAKI M L , HUMPHREYS T E . GNSS spoofing and detection[J]. Proceedings of the IEEE, 2016, 104 (6): 1258- 1270.
doi: 10.1109/JPROC.2016.2526658
|
4 |
CHEN Z Y, LI H, LU M Q. GNSS spoofing detection with single moving antenna based on the correlation of satellite transmit time residual[C]//Proc. of the China Satellite Navigation Conference, 2018.
|
5 |
DANESHMAND S, JAFARNIA J A, BROUMAN D A, et al. A low-complexity GPS anti-spoofing method using a multi-antenna array[C]//Proc. of the 25th International Technical Meeting of the Satellite Division of the Institute of Navigation, 2012.
|
6 |
JIANG Y P , WANG J L . A new approach to calculate the vertical protection level in A-RAIM[J]. Journal of Navigation, 2014, 67 (4): 711- 725.
doi: 10.1017/S0373463314000204
|
7 |
ALQURASHI M , WANG J L . Performance analysis of fault detection and identification for multiple faults in GNSS and GNSS/INS integration[J]. Journal of Applied Geodesy, 2015, 9 (1): 35- 48.
|
8 |
LI J , ZHANG J T , CHANG S F , et al. Performance evaluation of multimodal detection method for GNSS intermediate spoofing[J]. IEEE Access, 2016, 4, 9459- 9468.
doi: 10.1109/ACCESS.2016.2587322
|
9 |
WANG F, LI H, LU M Q. GNSS spoofing detection based on power monitoring of two-antenna[C]//Proc. of the China Satellite Navigation Conference, 2017.
|
10 |
YUAN D B , LI H , WANG F . A GNSS acquisition method with the capability of spoofing detection and mitigation[J]. Chinese Journal of Electronics, 2018, 27 (1): 213- 222.
doi: 10.1049/cje.2017.11.001
|
11 |
WANG F , LI H , LU M Q . GNSS spoofing detection and mitigation based on maximum likelihood estimation[J]. Sensors, 2017, 17 (7): 1532.
doi: 10.3390/s17071532
|
12 |
PHELTS R E. Multi-correlator techniques for robust mitigation of threats to GPS signal quality[D]. Stanford: Stanford University, 2001.
|
13 |
PINI M, FANTINO M, CAVALERI A, et al. Signal quality monitoring applied to spoofing detection[C]//Proc. of the Institute of Navigation GNSS Meeting, 2001.
|
14 |
ROUABAH K , CHIKOUCHE D , BOUTTOUT F , et al. GPS/GALILEO multipath mitigation using the first side peak of double delta correlator[J]. Wireless Personal Communications, 2011, 60 (2): 321- 333.
doi: 10.1007/s11277-010-9946-2
|
15 |
IRSIGLER M, HEIN G W, EISSFELLER B. Multipath performance analysis for future GNSS signals[C]//Proc. of the Institute of Navigation NTM, 2004.
|
16 |
PHELTS R E, WALTER T, ENGE P. Toward real-time SQM for WAAS: improved detection techniques[C]//Proc. of the Institute of Navigation GPS/GNSS, 2003.
|
17 |
MUBARAK O M, DEMPSTER A G. Performance comparison of ELP and DELP for multipath detection[C]//Proc. of the 22nd International Technical Meeting of the Satellite Division of the Institute of Navigation, 2009.
|
18 |
MUBARAK O M , DEMPSTER A G . Analysis of early late phase in single-and dual-frequency GPS receivers for multipath detection[J]. GPS Solutions, 2010, 14 (4): 381- 388.
doi: 10.1007/s10291-010-0162-z
|
19 |
PIRSIAVASH A, BROUMANDAN A, LACHAPELLE G. Two-dimensional signal quality monitoring for spoofing detection[C]//Proc. of the ESA/ESTEC NAVITEC conference, 2016.
|
20 |
HUMPHREYS T E , EVANS B L , GROSS J N , et al. GNSS signal authentication via power and distortion monitoring[J]. IEEE Trans.on Aerospace and Electronic Systems, 2017, 739- 754.
|
21 |
GROSS J N , KILIC C , HUMPHREYS T E . Maximum-likelihood power-distortion monitoring for GNSS signal authentication[J]. IEEE Trans.on Aerospace and Electronic Systems, 2018, 54 (2): 469- 475.
|
22 |
HU Y , BIAN S , CAO K , et al. GNSS spoofing detection based on new signal quality assessment model[J]. GPS Solutions, 2018, 22 (1): 28- 41.
doi: 10.1007/s10291-017-0693-7
|
23 |
WANG W Y , LI N , WU R , et al. Detection of induced GNSS spoofing using S-Curve-Bias[J]. Sensors (Basel, Switzerland), 2019, 19 (4): 922.
doi: 10.3390/s19040922
|
24 |
黎娜. 基于码跟踪环的单天线GNSS欺骗式干扰检测算法研究[D]. 天津: 中国民航大学, 2019.
|
|
LI N. Research on single antenna GNSS spoofing detection based on code tracking loop[D]. Tianjin: Civil Aviation University of China, 2019.
|
25 |
SUN C , WANY C J , DEMPSTER A G , et al. Moving variance based signal quality monitoring method for spoofing detection[J]. GPS Solutions, 2018, 22 (3): 83- 95.
doi: 10.1007/s10291-018-0745-7
|
26 |
ZHU Y L . A new code discrimination algorithm for C/A code tracking loop of GPS receiver[J]. Journal of Electronics & Information Technology, 2008, 30, 2742- 2745.
|
27 |
WARD P W. GPS receiver search techniques[C]//Proc. of the Position Location & Navigation Symposium, 1996.
|
28 |
ALI K, MANFREDINI E G, DOVIS F. Vestigial signal defense through signal quality monitoring techniques based on joint use of two metrics[C]//Proc. of the Position Location & Navigation Symposium, 2014.
|
29 |
HUMPHREYS T E. Texbat data sets 7 and 8[EB/OL]. [2020-05-16]. http://radionavlab.ae.utexas.edu/datastore/texbat/texbat_ds7_and_ds8.pdf.
|
30 |
SUN C , CHENG J W , DEMPSTER A G , et al. GNSS spoofing detection by means of signal quality monitoring (SQM) metric combinations[J]. IEEE Access, 2018, 6, 66428- 66441.
doi: 10.1109/ACCESS.2018.2875948
|