LPI Detection of Frequency-Hopping Signals Using Autocorrelation Techniques

Author

Polydoros, Andreas ; Woo, Kai T.

Author_Institution

Axiomatrix Corp., Los Angeles, CA, USA

Volume

3

Issue

5

fYear

1985

fDate

9/1/1985 12:00:00 AM

Firstpage

714

Lastpage

726

Abstract

Interception of frequency-hopping (FH) waveforms is commonly achieved by using a set of radiometers (energy detectors) that individually energy-detect subbands of the total spread bandwidth of the suspected transmission. In this paper, a scheme is analyzed which can improve the detection performance of FH waveforms in wide-band additive Gaussian noise (AWGN) using samples from the autocorrelation domain. It is shown that, under fairly general operational assumptions, an appreciable gain in decision signal-to-noise ratio (SNR) can be achieved over that of the radiometer. This gain is proportional to $\\gamma _{H}^{2}$ where $\\gamma _{H}$ is the hop SNR. The proposed algorithm, albeit inferior to the optimal likelihood-ratio test, has the advantage of reduced complexity. The overall approach has been motivated by the recent implementational feasibility of large time-bandwidth-product real-time correlators such as surface-acoustic wave devices (SAWD\´s).

Keywords

Acoustic surface-wave correlators; Frequency-hop communication; Signal detection; Surface acoustic wave correlators; AWGN; Autocorrelation; Bandwidth; Detectors; Frequency; Performance analysis; Radiometers; Signal detection; Signal to noise ratio; Wideband;

fLanguage

English

Journal_Title

Selected Areas in Communications, IEEE Journal on

Publisher

ieee

ISSN

0733-8716

Type

jour

DOI

10.1109/JSAC.1985.1146255

Filename

1146255