Detail publikace

The Performance of the Follower Jammer with a Wideband-scanning Receiver

BURDA, K.

Originální název

The Performance of the Follower Jammer with a Wideband-scanning Receiver

Anglický název

The Performance of the Follower Jammer with a Wideband-scanning Receiver

Jazyk

en

Originální abstrakt

Modern wideband-scanning receivers achieve a scanning speed of tens of gigahertz per second. It allows constructing follower jammers that can jam contemporary frequency hopping systems. The existing articles about the infuence of follower jammers on frequency hopping systems are focused on geometrical or power aspects of jamming only. Analyses of the jamming probability (ie, what relative part of transmission is jammed) are not published yet. In this article, a mathematical model for computation of this jamming probability is derived. An analysis of the performance of follower jammers is performed, too.

Anglický abstrakt

Modern wideband-scanning receivers achieve a scanning speed of tens of gigahertz per second. It allows constructing follower jammers that can jam contemporary frequency hopping systems. The existing articles about the infuence of follower jammers on frequency hopping systems are focused on geometrical or power aspects of jamming only. Analyses of the jamming probability (ie, what relative part of transmission is jammed) are not published yet. In this article, a mathematical model for computation of this jamming probability is derived. An analysis of the performance of follower jammers is performed, too.

Dokumenty

BibTex


@article{BUT45630,
  author="Karel {Burda}",
  title="The Performance of the Follower Jammer with a Wideband-scanning Receiver",
  annote="Modern wideband-scanning receivers achieve a scanning speed of tens of gigahertz per second. It allows constructing follower jammers that can jam contemporary frequency hopping systems. The existing articles about the infuence of follower jammers on frequency hopping systems are focused on geometrical or power aspects of jamming only. Analyses of the jamming probability (ie, what relative part of transmission is jammed) are not published yet. In this article, a mathematical model for computation of this jamming probability is derived. An analysis of the performance of follower jammers is performed, too.",
  address="FEI STU",
  chapter="45630",
  institution="FEI STU",
  number="1-2",
  volume="55",
  year="2004",
  month="january",
  pages="36--38",
  publisher="FEI STU",
  type="journal article - other"
}