The accessibility of ubiquitous communication services from various wireless technologies has become essential in the current Internet of everything (IoE) era. It is crucial for mobile users residing in densely populated areas to get the provision of uninterrupted connectivity and seamless services. To this end, this paper provides a mechanism for uninterrupted connectivity to a maximum number of users with the available resources. We propose a master/slave model in a 4G-Wi-Fi integrated network. Our novel Clustering-cum-Handover Management Scheme (CHMS) for dynamic cluster management together with the handover management in high density mobile wireless environment dispenses the unrestricted movement without connectivity loss and quality sacrifice. The dynamically configured clustering protocol of CHMS provides reduced cluster formation overhead and balances the load between cluster heads. To make smart selections, a distance-based energy-efficient clustering scheme is proposed for calculating the chances of a mobile device to become a cluster head. The seamless handover mechanism of CHMS manages the mobility of both the cluster head and cluster member while considering the limited energy of devices. It also achieves high network throughput and reduced end-to-end delay during handovers. Furthermore, our evaluation shows that CHMS provides application-specific quality of service even in highly dense wireless environments.

在当今的万物互联（IoE）时代，来自各种无线技术的无处不在的通信服务的可访问性已变得至关重要。对于居住在人口稠密地区的移动用户而言，获得不间断的连接和无缝服务至关重要。为此，本文提供了一种机制，可利用可用资源不中断地连接到最大数量的用户。我们提出了4G-Wi-Fi集成网络中的主/从模型。我们针对动态集群管理的新颖的集群暨移交管理方案（CHMS）与高密度移动无线环境中的移交管理一起分配了不受限制的移动，而没有连接丢失和质量损失。CHMS的动态配置群集协议可减少群集形成开销，并平衡群集头之间的负载。为了进行智能选择，提出了一种基于距离的节能聚类方案，用于计算移动设备成为簇头的机会。CHMS的无缝切换机制可管理群集头和群集成员的移动性，同时考虑设备的有限能量。它还可以实现较高的网络吞吐量，并减少切换过程中的端到端延迟。此外，我们的评估表明，即使在高度密集的无线环境中，CHMS仍可提供特定于应用程序的服务质量。提出了一种基于距离的节能聚类方案，用于计算移动设备成为簇头的机会。CHMS的无缝切换机制可管理群集头和群集成员的移动性，同时考虑设备的有限能量。它还可以实现较高的网络吞吐量，并减少切换过程中的端到端延迟。此外，我们的评估表明，即使在高度密集的无线环境中，CHMS仍可提供特定于应用程序的服务质量。提出了一种基于距离的节能聚类方案，用于计算移动设备成为簇头的机会。CHMS的无缝切换机制可管理群集头和群集成员的移动性，同时考虑设备的有限能量。它还可以实现较高的网络吞吐量，并减少切换过程中的端到端延迟。此外，我们的评估表明，即使在高度密集的无线环境中，CHMS仍可提供特定于应用程序的服务质量。