Simulation-based performance analysis and improvement of orthogonal frequency division multiplexing - 802.11p system for vehicular communications

In this study, the physical layer (PHY) of the upcoming vehicular communication standard IEEE 802.11p has been simulated in vehicle-to-vehicle situation through two different scenarios. IEEE 802.11p wireless access in vehicular environment defines modifications to IEEE 802.11 to support intelligent transportation systems applications. The standard is being consideredas a promising wireless technology for enhancing transportation safety and provides safety-related services like collision avoidance and emergency breaking. At first, this includes data exchange between high-speed vehicles and between the vehicles and the roadside infrastructure in the licensedITS band of 5.9 GHz. Performance analysis of PHY model has been evaluatedinto different propagation conditions (AWGN, Ricean and Rayleigh fading).In particular, bit error rate (BER) and signal to noise ratio for all thedata rates have been estimated. Simulation results reveal that our systemcan efficiently mitigate inter-symbol interference and inter-carrier interference introduced by multi-path delay spread in our high mobility environment but against frequency-selective fading BER values are on to increase. To overcome this problem, the authors propose to use a different value of guard interval (3.2 µs). Our initial results indicate that the performance with the larger cyclic prefix outperforms the performance of the initial value in our mobile channel profiles. Moreover, the authors investigatedin which way the Doppler spread affects the performance with regard to the transmission distance.

  • Availability:
  • Authors:
    • KIOKES, G
    • AMDITIS, A
  • Publication Date: 2009


  • English

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  • Accession Number: 01148813
  • Record Type: Publication
  • Source Agency: Transport Research Laboratory
  • Files: ITRD
  • Created Date: Jan 25 2010 8:49AM