Effects of Novel Material Field Effect Transistor for Heterogeneous Energy and Traffic-Aware Secure Applications

The advent of the automated technological revolution has enabled Internet Things to rejuvenate, revolutionize, and redeem services sensors. recent development microsensor devices is distributed in a real-world terrestrial environment sense various environmental changes. energy consumption remotely deployed microsystems depends on its utilization efficiency. Improper sensor nodes’ heterogeneity could lead uneven load imbalance across network, which will degrade performance network. proposed heterogeneous traffic aware (HETA) considers key parameters such as delay, throughput, load, consumption, life span. residual minimum distance between base station cluster members are taken into consideration for head selection. probability hitting data been utilized analyse towards station. role node realized priority-based forwarding also proposed. As result, perform well balancing station, analysed terms maximum throughput increase lifetime networks more than 5000 rounds, algorithm outperforms 34.5% nodes alive with transmissible energy. research endorses unequal clustering consumption. We have modeled our using p-type junctionless nanowire FET without doping injunctions. materials used this analysis were silicon (Si), germanium (Ge), indium phosphide (InP), gallium arsenide (GaAs), Al(x)Ga(1−x)As. dimensions cylindrical channel 25 nm long 10 diameter.