Node Collapse Discover In Mobile Wireless Networks: A Prospective Approach

1B. Kezia Rani, V.Narasimman, J.Surendiran


Intense simulation of disconnected and disconnected systems shows that our schemes achieve high failure recognition rates, and sometimes false positive rates, and incur low communication costs. The current approach can result in a lot of network traffic, which is not compatible with the use of restricted sources in mobile wireless systems. Our method has the advantage of being relevant to connected and disconnected systems. When compared to other methods that use localized monitoring, our method has similar fault recognition rates, reduced communication load and a much lower false positive rate. In addition, our approach has the advantage of being suitable for connected and disconnected systems, while central monitoring is relevant only for connected systems. In the indoor environment where the GPS navigation system is not working, the node can use location techniques. Different site devices and methods have different amounts of error in site measurements. The probability of failure depends on the node itself with the atmosphere. Our approach generates only local traffic and is connected both online and offline. Many localization techniques are codified in the literature. Finally, we produce the highest failure recognition rate using our approach.


NodeFailure Detection, Localized monitor, FPS, Network Traffic, failure node, disconnected network.

Paper Details
IssueIssue 10