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Future 5G mobile networks are expected to support high numbers of simultaneously connected devices and to achieve high system spectrum efficiency at low power consumption. To attain these goals, device-to-device (D2D) communication is a key component. We allow any cellular user equipment to share its radio resource with multiple D2D devices and then develop the MiSo algorithm, which considers spectrum...
Compared to current mobile networks, next-generation mobile networks are expected to support higher numbers of simultaneously connected devices and to achieve higher system spectrum efficiency and lower power consumption. To achieve these goals, we study the multi-sharing device-to-device (D2D) communication, which allows any cellular user equipment to share its radio resource with multiple D2D devices...
The traffic demand is increasing drastically, and millimeter wave (mmWave) bands have the potential to offer much higher throughput due to broad spectrum. We have two main contribution under urban NLOS mmWave cellular system. First, an orthogonality concept is used in spatial-time domain resource allocation to perform the scheduling, which gives consideration to throughput and fairness. Second, we...
Device-to-device (D2D) communication can improve system spectrum efficiency in mobile networks; however, existing D2D resource allocation techniques may not work well in 5G mobile networks with many simultaneously connected devices. To address this problem, we study the multi-sharing resource allocation problem, which allows any cellular user equipment to share its radio resource with multiple D2D...
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