• Title of article

    An Investigation Effects over Jammer Signal Excision of Different Spreading Sequences Employed in Spread Spectrum Communication

  • Author/Authors

    altun, ahmet nuh naci yazgan university - haberleşme sistemleri araştırma geliştirme merkezi (hargem) - department of electrical and electronics engineering, Turkey , öksüz, engin nuh naci yazgan university - haberleşme sistemleri araştırma geliştirme merkezi (hargem) - department of electrical and electronics engineering, Turkey , ülgerli, büşra nuh naci yazgan university - haberleşme sistemleri araştırma geliştirme merkezi (hargem) - department of electrical and electronics engineering, Turkey , yücel, gökay nuh naci yazgan university - haberleşme sistemleri araştırma geliştirme merkezi (hargem) - department of electrical and electronics engineering, Turkey , özen, ali nuh naci yazgan university - haberleşme sistemleri araştırma geliştirme merkezi (hargem) - department of electrical and electronics engineering, Turkey

  • From page
    235
  • To page
    247
  • Abstract
    The performances of different spreading sequences employed in spread spectrum communication systems have been investigated over removing from the spectrum of non-stationary jamming signals involved in the system in this paper. The performances of the PN, Barker and CCK spreading sequences, located in the IEEE standards, are analyzed comparatively in this work, inspired by the proposed method in [1], for the excision of jamming signals included in the system. Computer simulations have been performed for the different values of noise power and the jamming signal power, involved in the system. The obtained simulation results have demonstrated that the best performances are achieved with CCK spreading sequence in even high jammer to signal ratio (JSR) values.
  • Keywords
    Signal jamming , DSSS , CDMA , Short time Fourier transform , Spreading codes
  • Journal title
    Journal Of New Results In Science
  • Journal title
    Journal Of New Results In Science
  • Record number

    2608706