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Articles by I. Kala
Total Records ( 2 ) for I. Kala
  I. Kala , N. Karthikeyan and S. Karthik
  In a disaster recovery scenario, there may be some static wireless nodes at special service providing locations such as a medical camps or helipads and the other mobile nodes such as mobile equipment carried by a rescue personal or any transport vehicle. This forms a Quasi MANET in which the mobile nodes periodically communicate to the static nodes with some critical priority. In Quasi MANET under consideration, there are some percentage of node which are not at all mobile throughout whole time of operation. This research work main scope is to design and implement a location based AODV routing model for Quasi MANET scenario and evaluate its performance with normal AODV routing protocol and other MANET routing protocols. Hence implemented a Region based Route Request Processing in AODV (RRRP_AODV) and compared its performance with normal AODV. The arrived result verifies the noteworthy progress in performance of RRRP_AODV.
  I. Kala , L.S. Jayashree and S. Karthik
  Topographic addressing of packets within mobile ad hoc networks enables modern applicability including hard perceptive-time agreement simulation in military training systems, geographic command and control functions in training and predicament communications and monetary messaging applications as well. The most extensible implementation of topographical addressing is via a Geocast protocol where nodes selectively rebroadcast packets based on provincial accord rules. Well-designed excommunication heuristics yield extensible topographic flooding that outplays surrogate geo addressing approaches. However, previous Geocast Routing implementations while effective, fall into two categories. Approaches based on flooding are inextensible due to the high load they achieve. Extensible approaches, on the other hand have difficulty in complex environments, lacking sufficient brilliance about the necessary directionality of packet flow. The present research defines a contemporary Geocast Routing heuristic, the Medial Range with Precedence (MR-P) Heuristic which both significantly improves on reliability of existing extensible Geocast Routings and yet also remains extensible as design complexity increases. This study describes the contemporary technique as well as an evaluation study comparing it to erstwhile approaches.
 
 
 
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