典型文献
Airborne GNSS-Receiver Threat Detection in No-Fading Environments
文献摘要:
Jamming and spoofing detection of global navigation satellite systems (GNSS) is of great importance. Civil and military aerial platforms use GNSS as main navigation systems and these systems are main target of threat attacks. In this paper a simple method based on different empirical probability density functions of successive received signal powers and goodness of fit tech-nique is proposed for airborne platforms such as unmanned aerial vehicle (UAV), in no fading envi-ronment. The two different paths between UAV-satellite and UAV-threat, experience different empirical probability density functions which can be used to distinguish between authentic and threat signals. Simulation results including detection and false alarm probabilities show good perfor-mance of proposed method as well as low computational burden.
文献关键词:
中图分类号:
作者姓名:
Omid Sharifi-Tehrani
作者机构:
Department of Electri-cal and Communication Engineering,Imam Hussein Com-prehensive University,Tehran,Iran
文献出处:
引用格式:
[1]Omid Sharifi-Tehrani-.Airborne GNSS-Receiver Threat Detection in No-Fading Environments)[J].北京理工大学学报(英文版),2022(06):613-620
A类:
B类:
Airborne,GNSS,Receiver,Threat,Detection,No,Fading,Environments,Jamming,spoofing,detection,global,navigation,satellite,systems,great,importance,Civil,military,aerial,platforms,main,these,are,target,threat,attacks,In,this,paper,simple,method,different,empirical,probability,density,functions,successive,received,powers,goodness,fit,tech,nique,proposed,airborne,such,unmanned,vehicle,UAV,no,fading,envi,two,paths,between,experience,which,can,used,distinguish,authentic,signals,Simulation,results,including,false,alarm,probabilities,show,perfor,mance,well,low,computational,burden
AB值:
0.677829
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