Some Analysis of the LPI Concept for Active Sonar

Author

Lynch, Robert S. ; Willett, P.K. ; Reinert, J.M.

Author_Institution

Div. Newport, Naval Undersea Warfare Center, Newport, RI, USA

Volume

37

Issue

3

fYear

2012

fDate

7/1/2012 12:00:00 AM

Firstpage

446

Lastpage

455

Abstract

A low probability of intercept (LPI) waveform is designed to appear to the target it probes as noise, and consequently the robust target receiver can detect only a rise in random energy. It can be recalled by the transmitter (platform), and matched to what is received; however, the platform pays a heavy two-way attenuation penalty: its signal-to-noise ratio (SNR) is far lower than that at the target. How these two factors trade off against one another is the topic of this paper. It will be shown that the sonar´s time-bandwidth product is generally unfavorable to LPI. For most cases of interest in a Gaussian noise environment, LPI sonar does not favor covert observation for sonar signals shorter than 1 min at ranges greater than 100 yards. However, LPI sonar may have a key role in non-Gaussian heavy-tailed noise environments. Specifically, LPI may play a role in environments where the ambient noise has a kurtosis of around 10.

Keywords

Gaussian noise; dispersion (wave); receivers; sonar signal processing; transmitters; Gaussian noise environment; LPI concept; LPI sonar; LPI waveform; SNR; active sonar; ambient noise; low probability of intercept; nonGaussian heavy-tailed noise environments; random energy detection; signal-to-noise ratio; sonar signals; sonar time-bandwidth product; target receiver; transmitter; two-way attenuation penalty; Detectors; Energy resolution; Propagation losses; Signal resolution; Signal to noise ratio; Sonar; Detector structures; Gaussian noise; efficacy; locally optimal detection; non-Gaussian noise;

fLanguage

English

Journal_Title

Oceanic Engineering, IEEE Journal of

Publisher

ieee

ISSN

0364-9059

Type

jour

DOI

10.1109/JOE.2012.2191654

Filename

6200382