The advance of multi-media applications has prompted researchers to undertake the task of finding suitable methods to carry multi-media data through ad-hoc wireless networks. The task of finding suitable methods for this particular application is rather difficult to achieve since ad-hoc networks exhibit highly dynamic link connectivity and are prone to error from radio transmission through the physical environment. In addition to all of the above, the sole concern of the current protocols is the connectivity of wireless nodes. The connectivity is maintained by a set of network messages. Communicating nodes in an ad hoc network select only the shortest available path. In the event of traffic congestion, packets are simply dropped from the queue. The notion of multi-path scheme has been investigated by other researchers, and DSR is still the most popular choice to implement network adaptation for multi-media traffic. Most of the existing network adaptation methods however lack the fairness in multi-path selection. A new network adaptation module with the aid of fuzzy logic and depth first search can provide a better guarantee in packet delivery and better use of network resources. In addition to the new module, a comparative study has been done in this project for suitable update methods for the unused multi-paths. This is a weakness in the use of DSR multi-path scheme because DSR only updates active traffic paths. The simulation results in this thesis show that the new network adaptation module is capable of improving the performance of the network communications. / Thesis ([MEng(ElectricalEngineering)])--University of South Australia, 2004.
| Identifer | oai:union.ndltd.org:ADTP/267584 |
| Creators | Kwan, Manus. |
| Source Sets | Australiasian Digital Theses Program |
| Language | English |
| Detected Language | English |
| Rights | copyright under review |
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