HOUSEHOLDER BASED LOW-RANK SPACE-TIME PROCESSOR FOR ANTI-JAMMING NAVIGATION RECEIVERS (WedAmPO4)

Author(s) : Stefan Werner (Signal Proc. Lab., SMARAD CoE, HUT, Finland) Matias With (Signal Proc. Lab., SMARAD CoE, HUT, Finland) Visa Koivunen (Signal Proc. Lab., SMARAD CoE, HUT, Finland)

Abstract : This paper addresses the problem of mitigating intentional jamming in navigation receivers using smart antennas. For example, GPS receivers provide high precision location information needed in many military and civilian applications. The signal powers employed are so low that navigation receivers are a lucrative target for intentional jamming. Consequently, it is important to use advanced receiver structures that can deal with different types of jamming. Space-time processing methods used in the receiver provide sufficient number of degrees of freedom for cancelling large number of wideband jammers. In this paper a low rank method stemming from multistage Wiener filtering (MSWF) is developed. A Householder transform based method for generating unitary blocking matrices is proposed. The computation of blocking matrices is efficient and the actual blocking operation has low complexity, too. The reliable performance of the method is demonstrated in anti-jamming GPS reception where a good number of both narrowband and wideband jammers are cancelled.

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