End-to-End Latency Analysis for Data Transmission via Optimum Path Allocation in Industrial Sensor Networks

In a sensor network, packet transmission is easy, but achieving an effective routing path is difficult. The packet information is modified by the intruder node. Initial node capacity is not monitored, so it does not filter out the individual status of each and every node in the routing path. It caus...

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Bibliographic Details
Published inWireless communications and mobile computing Vol. 2022; pp. 1 - 9
Main Authors Jatothu, Rajaram, Lal, Jaya Dipti, Bhavani, N. P. G., Sharada, K. A., Balraj, E., Vaigandla, Karthik Kumar, Shukla, Arvind Kumar, Ishrat, Mohammad, Sahile, Kibebe
Format Journal Article
LanguageEnglish
Published Oxford Hindawi 31.07.2022
Hindawi Limited
Subjects
Algorithms
Communication
Data transmission
Energy consumption
Network latency
Nodes
Packet transmission
Route planning
Sensors
Uniqueness
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Summary:In a sensor network, packet transmission is easy, but achieving an effective routing path is difficult. The packet information is modified by the intruder node. Initial node capacity is not monitored, so it does not filter out the individual status of each and every node in the routing path. It causes a network that utilizes more energy and minimum packet delivery ratio. This work has implemented the enhanced centrum path allotment-based shielded communication (ECSC) scheme to achieve the shielded packet broadcasting from the sender node to the destination node in the network environment. The quality of packet transmission is improved by using the spatial uniqueness node selection algorithm. It is designed to select the routing node based on its uniqueness; priority-based communication is carried out by the uniqueness process. It improves the packet delivery ratio and network lifetime. It also minimizes packet drop rate and end-to-end delay.
ISSN:1530-8669
1530-8677
DOI:10.1155/2022/1697746