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Development of a simulation environment for vehicular communications, implementation of FEC coding chain in Xilinx FPGA based on IEEE 802.11p standard

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dc.contributor.author Kiokes, G en
dc.contributor.author Uzunoglu, NK en
dc.date.accessioned 2014-03-01T02:46:06Z
dc.date.available 2014-03-01T02:46:06Z
dc.date.issued 2009 en
dc.identifier.uri https://dspace.lib.ntua.gr/xmlui/handle/123456789/32549
dc.subject Forward Error Correction en
dc.subject Intelligent Transport System en
dc.subject Performance Analysis en
dc.subject Physical Layer en
dc.subject Rayleigh Fading en
dc.subject Simulation Environment en
dc.subject Vehicular Communication en
dc.subject Guard Interval en
dc.subject.other Base-band processing en
dc.subject.other Coding scheme en
dc.subject.other Fast prototyping en
dc.subject.other FEC coding en
dc.subject.other Forward error correction coding en
dc.subject.other Guard intervals en
dc.subject.other IEEE 802.11s en
dc.subject.other Intelligent transportation systems en
dc.subject.other Matlab simulations en
dc.subject.other Performance analysis en
dc.subject.other Physical layers en
dc.subject.other Simulation environment en
dc.subject.other System generator tool en
dc.subject.other Vehicular communications en
dc.subject.other Vehicular environments en
dc.subject.other Wireless access en
dc.subject.other Xilinx FPGA en
dc.subject.other Error correction en
dc.subject.other Field programmable gate arrays (FPGA) en
dc.subject.other Intelligent vehicle highway systems en
dc.subject.other MATLAB en
dc.subject.other Rayleigh fading en
dc.subject.other Standardization en
dc.subject.other Wireless networks en
dc.title Development of a simulation environment for vehicular communications, implementation of FEC coding chain in Xilinx FPGA based on IEEE 802.11p standard en
heal.type conferenceItem en
heal.identifier.primary 10.1109/WOWMOM.2009.5282403 en
heal.identifier.secondary 5282403 en
heal.identifier.secondary http://dx.doi.org/10.1109/WOWMOM.2009.5282403 en
heal.publicationDate 2009 en
heal.abstract This work presents the performance analysis and optimization of the IEEE 802.11p Physical layer and the implementation of the Forward Error Correction (FEC) coding chain on Xilinx FPGA hardware. A MATLAB simulation is carried out in order to analyze baseband processing of the transceiver. IEEE 802.11p Wireless Access in the Vehicular Environment defines modifications to IEEE 802.11 to support Intelligent Transportation Systems applications. Performance analysis of Physical layer model has been estimated into different propagation conditions (A WGN, Ricean and Rayleigh fading). Two different coding schemes and a different value of guard interval has been employing in the model in order to optimize its performance. The coding chain in the transmitter with and without the two coding schemes has been implemented in a FPGA from Xilinx using the System Generator tool-flow for fast prototyping. © 2009 IEEE. en
heal.journalName 2009 IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks and Workshops, WOWMOM 2009 en
dc.identifier.doi 10.1109/WOWMOM.2009.5282403 en


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