Enhancing wireless subscriber performance through AODV routing protocol in simulated mobile Ad-hoc networks
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Abstract
The investigation of impromptu network routing algorithms has been a focal point in exploration of networks associated with Ad-Hoc systems. This study uses the OPNET simulation tool to classify and assess Ad-Hoc networking routing approaches in order to deal with multiple obstacles pertaining to the networking guidelines, which include inadequate adaptation with an elevated management complexity. In particular, the effectiveness of two routing protocols such as the table-driven and the on-demand is being evaluated. The leading on-demand routing protocols are DSR (Dynamic Source Routing) and AODV (Ad Hoc On-Demand Distance Vector), whereas the majority of prevalent table-driven routing protocol is DSDV (Destination Sequenced Distance Vector). These three protocols' capabilities are emulated under conditions of distinctive packet transmission proportions, typical end-to-end interruptions, and routing demands. Based on a constant bitrate source traffic framework, the results of simulations take place across multiple movement speeds (0–25 m/s). Findings within a distributed system featuring 20 arbitrarily positioned terminals demonstrate the use of the on-demand routing system functions optimum in a high-mobility condition.
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References
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