The intelligent networks utilize smart and AI federated technologies especially in Industrial Internet of Things (IIoT), as it is the need of the hour to gather the data from sensor devices deployed at diverse locations for the drawing inferences from the gathered data. The data transmission operation requires smart technologies to move the data between base stations and mobile devices. Usually, the sensor devices have limited resources for storage as well as for preserving energy. The design of the network should be done in such a way that it can reduce the energy consumption and the data transmission time. This can help improve the lifetime of the network. With the advent of AI based technologies, it is possible now to integrate the underlying technologies such as datamining, IoT and AI federated technologies to create the clusters of sensing nodes to minimize energy usage. Thus, this study discusses three different cluster-based models for data collection and transmission. The first model is used to create a cluster and then select its head based on the energy parameters. The second model, on the other hand, uses a clustering method to create the cluster and then select its head. The third model in this paper presents the main contribution of the cluster creation process by considering the various parameters that affect the density and energy of the cluster. The simulation experiments are performed for all three models using JUNG simulator. The experimental results show that the third approach with considering energy, distance, and density for selecting the clustering head achieves the optimal results for enhancing the lifetime of the network.