Optimized Traffic and Enhanced Lifetime Routing Algorithm in Wireless Sensor Network

Background/Objectives Environmental monitoring applications can be broadly arranged into indoor and outdoor monitoring. Indoor monitoring applications regularly incorporate structures and greenhouses monitoring. These applications include detecting temperature, light, humidity, and air quality. Outdoor monitoring applications incorporate substance hazardous detection, habitat monitoring, traffic monitoring, earthquake detection, volcano eruption, flooding detection and weather determining. Sensor nodes additionally have discovered their applicability in agriculture. A few of these difficulties and limitations in existing agricultural applications based on WSNs are recorded underneath together with proposals on the most proficient method to address them.

Methods/Statistical analysis WSNs have become a significant tool in environmental monitoring. The moderately low cost of the devices allows the installation of a dense population of nodes that can adequately speak to the fluctuation present in the environment. They can give hazard appraisal data to model alarming farmers at the onset of frost damage and giving better microclimate mindfulness Network Initialization in Agriculture Field, Data Collection and Routing in WSN, ECLA for Wsn Agri Process, and OTELR algorithm for extending network lifetime.

Findings The development of WSN applications in precision agriculture makes it conceivable to expand efficiencies, productivity and profitability in numerous agricultural production systems, while limiting unintended effects on natural life and the environment. The real time data got from the fields can give a strong base to farmers to adjust methodologies whenever.