Dynamic ambient HetNet for hybrid data communication and transmission in IoT networks

摘要

In this manuscript, the Dynamic ambient HetNet for hybrid data communication and transmission in IoT networks is proposed. The lodging of colossal devices and their linkages in and beyond 5th generations (5G) has obtained a great deal of studies from academia and business. In the macro hotspot field, the uses of emerging Device-to-device (D2D), Light Fidelity (LiFi), Unmanned Aerial Vehicle (UAV) and Drones can't simply cross the paths of transient network support prerequisites. Environmental interaction is an optional way to efficiently reduce this problem through the provision of urgent connections among limited-power servers. In addition, the effectiveness of transmission relies on parameters and range from factors like signal form, Radio frequency (RF) origin and the atmosphere, i.e. indoor or outdoor. The proposed Dynamic Ambient HetNet architecture both indoors and outdoors, where a source node is connected to the target node via radio frequency-powered relays to increases network coverage and enhance the efficiency of mobile devices either within the macro hot spot region or during the disaster area like hurricanes. This method can exploit the Wireless interweave down-convert up-convert protocol with energy-collection capacity for simultaneous information and power transfer. During the propagation from the origin node, radio frequency-powered relay can monitor hybrid data broadcasts, owing to its full duplex features. The efficiency assessment in MATLAB demonstrates the traditional models for radio frequency relay in hybrid communication. Moreover, we endow with the challenges in relation to the ambient backscatter communication network. The experimental results proved that the proposed method is better in terms of power factor and throughput gives 90%, ratio for the uplink and down link in terms of cell load has obtained 75%, and packet throughput in terms of speed has the value of 93%.