Open AccessCollection probability with discrete random signal‐to‐interference power ratios in multiple interferences for electronic intelligence receivers
Author(s) -
Romero Ric A.,
Ha Tri T.,
Lioulis Stylianos
Publication year - 2013
Publication title -
the journal of engineering
Language(s) - English
Resource type - Journals
ISSN - 2051-3305
DOI - 10.1049/joe.2013.0035
Subject(s) - interference (communication) , signal (programming language) , computer science , random variable , power (physics) , range (aeronautics) , metric (unit) , signal to interference ratio , algorithm , electronic engineering , mathematics , telecommunications , statistics , engineering , physics , channel (broadcasting) , operations management , quantum mechanics , programming language , aerospace engineering
In certain applications, signal transmit power is adjusted in discrete levels. Moreover, interference powers themselves can be discretely random. For electronic intelligence applications, the authors refer to the signal to be collected as signal of interest (SoI). Thus, for a passive receiver, the resulting instantaneous SoI‐to‐interference power ratio (SIR) in multiple interferences is a discrete random variable. This means signal detection or collection is not guaranteed. They proposed collection probability (CP) as a metric when the SIR is random. In this study, the authors evaluate CP probabilistically and show CP against SIR threshold degradation and/or improvement as a function of increasing number of interferences, increasing signal power range and increasing distribution gain.