ICIC: A Multihop WSN Dual Mode Intra- and Inter-Cluster Energy Minimization Approach PROJECT TITLE : ICIC: A Dual Mode Intra-Cluster and Inter-Cluster Energy Minimization Approach for Multihop WSN ABSTRACT: In the process of designing a wireless sensor network, one of the most important concerns is reducing the amount of energy used, which becomes more difficult when multiple hops are involved in the transmission. In addition, picking a multi-hop route for the transmission of the packets can be a time-consuming and difficult task. An intra-cluster and inter-cluster (ICIC) energy minimization strategy for multihop wireless sensor networks is presented in this paper by the authors (WSN). A dynamic duty cycle allocation that is based on the distance of the cluster head (CH) node from the child nodes is presented in the proposed strategy as an intra cluster Communication method for the purpose of minimizing the amount of energy used. When it comes to the Communication between clusters, the path that uses the least amount of energy to deliver packets to the base station is the one that is selected (BS). Clustering protocols known as HEEMP, LEACH, MLEACH, and SEP are examined alongside the proposed strategy in order to draw comparisons between them and the most recent developments in the field. The evaluation of both the proposed strategies and the existing ones is carried out using two distinct sets of circumstances, namely the number of rounds and the number of nodes. The findings of the simulation indicate that the proposed strategy is superior to other strategies in terms of the number of packets transmitted and the number of nodes that die. In addition, the proposed tactic uses a greater amount of energy for both the network and the relaying of information. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest A Comprehensive Overview of the Different Aspects of Low-Power Wide-Area Networks BCH-coded UWOC Link Experimental Demonstration and Evaluation for Power-Efficient Underwater Sensor Nodes