By Topic
Skip to Results

Search Results

You searched for: (eleazu)
2 Results returned

Search Suggestion(s): eleahu(106) elezi(12)

Skip to Results
  • Download Citations Disabled
  • Print
  • Full text access may be available. Click article title to sign in or learn about subscription options.

    Packet-switched roadside base station to vehicle communication for intelligent vehicle/highway systems

    Diesta, R.F. ; Eleazu, C.O.U. ; Linnartz, J.-P.M.G.
    Vehicular Technology Conference, 1994 IEEE 44th

    DOI: 10.1109/VETEC.1994.345095
    Publication Year: 1994 , Page(s): 401 - 404 vol.1
    Cited by:  Papers (3)

    IEEE Conference Publications

    Optimum frequency reuse patterns for roadside base station to vehicle communications in intelligent vehicle/highway systems (IVHS) are determined based on optimal delay/throughput and packet erasure rates for BPSK transmission over narrowband dispersive Rician channel with ISI and (Rayleigh-faded) co-channel interference. For fixed cluster size and fixed total system bandwidth, a reuse pattern of 2 for continuously transmitting (hence interfering) base stations gives minimum average delay and maximum spectrum efficiency: this is a denser pattern than suggested for highway cellular telephony networks. Spectrum efficiency is enhanced by using a dynamic cluster size which depends on the distance from the base station, taking advantage of the IVHS environment where vehicle position may be known View full abstract»

  • Full text access may be available. Click article title to sign in or learn about subscription options.

    Base station to vehicle communication for intelligent vehicle/highway systems (IVHS)

    Eleazu, C.O. ; Linnartz, J.-P.M.G.
    Electronics Letters

    Volume: 29 , Issue: 24
    DOI: 10.1049/el:19931388
    Publication Year: 1993 , Page(s): 2079 - 2080
    Cited by:  Papers (2)

    IET Journals & Magazines

    An optimum frequency reuse factor of 1 or 2 is proposed to minimise the average queueing delay and maximise throughput in a packet-switched microcellular network with BPSK transmission over dispersive Rician-fading channels. Thus, for intelligent vehicle/highway system data networks, frequency reuse can be substantially denser than has been suggested for circuit-switched cellular telephony networks. View full abstract»

Skip to Results

SEARCH HISTORY

Search History is available using your personal IEEE account.