![]() The IoT nodes in these networks monitor crucial environmental activities and communicate the processed data. ![]() The development of a large number of IoT applications like smart city, smart home, and smart healthcare depends upon robust and resilient underlying IoT networks. Internet of Things (IoT), , technology refers to all communicating, context-aware systems connected to the internet. It is observed that the proposed network-aware RF-energy harvesting scheme improves the network performance in terms of energy harvesting, network coverage, and the lifetime of IoT network. Extensive simulations are conducted under various network scenarios to evaluate the energy harvesting performance of the proposed methods. The proposed transmitter positioning scheme, along with the hybrid RF-wave propagation model, overcome the energy hole issue in the IoT networks and improves energy efficiency. This model is also validated against the practical datasets generated from experiments. The proposed model also predicts the amount of residual RF-energy available in the propagating RF-wave for harvesting. This helps in improving the modelling accuracy of the RF-waves. The proposed model amalgamates different wave propagation mechanisms for signal strength prediction in the propagating RF-waves. In this regard, a robust hybrid RF-wave propagation model is also proposed. Moreover, the wireless medium uncertainties result in severe attenuation of the propagating RF-waves. Apart from that, the amount of RF-energy harvested is constrained to the RF-energy carried by the propagating RF-waves. ![]() This RF-energy transmitter deployment scheme considers different network performance parameters such as energy-hole information, node-connectivity information, and data routing information for RF-energy transmitter placement. In this context, a network-aware RF-energy transmitter positioning scheme is proposed in this work. However, the appropriate positioning of these RF-energy transmitters in the network is a challenging issue. Moreover, a number of dedicated RF-energy transmitters is required for sufficient energy transfer to the power deficit IoT nodes. ![]() Radio Frequency (RF) energy is one of the most prominent ambient energy sources available that can be used for harvesting energy. Energy Harvesting plays a crucial role in improving the network lifetime of an IoT application. ![]()
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