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Device-to-Device (D2D) communication is one of the promising and revolutionary technologies in 5G cellular networks that enables mobile terminals to communicate directly without the base station involvement. One of the major objectives of 5G for this paradigm is to provide seamless mobility satisfying QoS requirements. Hence, the handover process between various radio cells is an important issue faced...
Internet of things (IoT) is about billions of heterogeneous smart devices connected through heterogeneous communications technologies such as Ethernet, WiFi, Bluetooth, ZigBee, etc. The variety of devices and technologies pushes the development of solutions and applications in various domains. Nevertheless, it makes the management, control and programmability of networks and IoT applications (Smart...
Mobile Cloud Computing allows offloading compute-intensive applications execution from resource-constrained mobile devices to more powerful computing resources, i.e., distant cloud servers or cloudlets. This is a challenging issue due to the situations that mobile users may face in such context such as the inconstancy of wireless networks, mobility, server load or battery drain. Most cloudlet-based...
Mobile Cloud Computing (MCC) allows offloading compute-intensive applications execution from resource-constrained Mobile Devices (MDs) to more powerful computing resources, i.e., distant cloud servers or cloudlets. This is a challenging issue due to the situations that Mobile Users (MUs) may face in such context such as the inconstancy of wireless networks, mobility, server load or battery drain....
In the next generation of wireless networks, mobile users can move between heterogeneous networks, using terminals with multiple access interfaces and non-real-time or real-time services. The most important issue in such environment is the Always Best Connected (ABC) concept allowing the best connectivity to applications anywhere at anytime. To answer ABC requirement, various vertical handover decision...
Future generation wireless networks should provide to mobile users the best connectivity to services anywhere at anytime. The most challenging problem is the seamless intersystem/vertical mobility across heterogeneous wireless networks. In order to answer it, a vertical handover management system is needed. In our paper, we propose an intelligent solution answering user requirements and ensuring service...
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