Internet of Things Enabled Water Quality Monitoring and Alert System Using Improved Multicast Routing Algorithm

  • Mrs. Dipali K. Shende, Dr. V. V. Deotare

Abstract

This paper provides smart responses to monitor toxic sewage water pollution and also explores working framework on a machine of live sewage water detection and monitoring. Whenever, a definite inception is reached, detection of polluted water inlet is searched among all the IoT nodes placed at all inlets in cannel or dam. This information is gathered with optimized crow whale multicast routing algorithm. The information is then forwarded along with different values send to the central controlling station indicating whether it is harmless for the society or any corrective actions like alert is required. Central station will send alert to owner for water contamination. The proposed system will provide efficient energy and trust aware route optimization for smart IoT Networks. Further, network simulations are conducted to evaluate the performance efficiency of the proposed framework. The simulation is analysed using 50 nodes in terms of the performance measures. The proposed method acquired the minimal delay of 0.31 and 0.384, maximal detection rate of 0.9938, maximal energy of 99.212, maximal throughput of 0.4255 the presence of contamination with 50 nodes for analysis. The results show that the proposed approach is capable of providing trust worthy transmission by resolving the delay and intelligent automate action problem in alert to  along with the decrease in delivery latency, end to end delay and packet loss, and improvement in throughput and transmission rate even during the deliverystage. Furthermore, the detection capability of the proposed work Multicast routing method was better in the presence of the contamination.

Published
2021-11-19
How to Cite
Mrs. Dipali K. Shende, Dr. V. V. Deotare. (2021). Internet of Things Enabled Water Quality Monitoring and Alert System Using Improved Multicast Routing Algorithm. Design Engineering, 13620 - 13629. Retrieved from http://thedesignengineering.com/index.php/DE/article/view/6482
Section
Articles