Accession Number : ADA347034
Title : Wireless Local Area Networks: Simulation and Analysis
Descriptive Note : Master's thesis
Corporate Author : NAVAL POSTGRADUATE SCHOOL MONTEREY CA
Personal Author(s) : Kyriakidis, Efstathios D.
Report Date : JUN 1998
Pagination or Media Count : 150
Abstract : Wireless communication is currently in a state of rapid evolution. This evolution is driven by the numerous advantages of the wireless networks. One major constraint to this evolution is the lack of standardization. Also a major concern are the interference problems of the signal at the reception point caused by the multiple paths that the electromagnetic waves travel (multi-path interference). This thesis presents two separate simulations. In the first, a realistic physical model of a wireless local area network is developed. In this simulation, the multi-path interference at the reception point is investigated. The results of this physics- based simulation are used to assess an important assumption in the second simulation. In the second simulation, we examine the reliability of the wireless standard for the medium access control (MAC) layer, using CACI COMNET ffi network simulation software. This standard was published in 1997, by the IEEE's working group 802.11 and in this thesis is tested and analyzed under different network loads. One major result is that the optimum load for a five working stations wireless LAN, is from 80 to 200 packets per second. Below that load range the channel utilization is small and above that the network is overloaded.
Descriptors : *LOCAL AREA NETWORKS , *ELECTROMAGNETIC INTERFERENCE , *MULTIPATH TRANSMISSION , CONTROL , SIMULATION , OPTIMIZATION , MODELS , PHYSICAL PROPERTIES , PATHS , THESES , RELIABILITY , PHYSICS , ELECTROMAGNETIC RADIATION , COMMUNICATIONS NETWORKS , EVOLUTION(GENERAL) , ACCESS , RADIO LINKS , TRAVEL , RECEPTION , UTILIZATION , CHANNELS , RADIOTELEPHONES.
Subject Categories : COMPUTER SYSTEMS
RADIOFREQUENCY WAVE PROPAGATION
Distribution Statement : APPROVED FOR PUBLIC RELEASE