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Resource Sharing Optimization for Device-to-Device Communication Underlaying Cellular Networks
We consider Device-to-Device (D2D) communication underlaying cellular networks to improve local services. Expand
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Device-to-device communication as an underlay to LTE-advanced networks
In this article device-to-device (D2D) communication underlaying a 3GPP LTE-Advanced cellular network is studied as an enabler of local services with limited interference impact on the primary cellular network. Expand
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Power Optimization of Device-to-Device Communication Underlaying Cellular Communication
We address resource sharing of the cellular network and a device-to-device (D2D) underlay communication underlaying a cellular network in a single-cell environment. Expand
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Mode Selection for Device-To-Device Communication Underlaying an LTE-Advanced Network
Device-to-Device communication underlaying a cellular network enables local services with limited interference to the cellular network. Expand
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Interference-Aware Resource Allocation for Device-to-Device Radio Underlaying Cellular Networks
We propose a practical and efficient scheme for generating local awareness of the interference between the cellular and D2D terminals at the base station, which exploits the multiuser diversity inherent in the cellular network to minimize the interference. Expand
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On the Performance of Device-to-Device Underlay Communication with Simple Power Control
We address device-to-device (D2D) communication as a potential resource reuse technique underlaying a cellular network in a single-cell environment. Expand
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Performance Analysis of Group-Synchronized DCF for Dense IEEE 802.11 Networks
In dense IEEE 802.11 networks, improving the efficiency of contention-based media access control is an important and challenging issue. Expand
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Device-to-Device Communication Underlaying Cellular Communications Systems
We propose a novel power control mechanism for D2D connections that share cellular uplink resources. Expand
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Enabling the coexistence of LTE and Wi-Fi in unlicensed bands
In this article, we discuss the issues that arise from the concurrent operation of LTE and Wi-Fi in the same unlicensed bands from the point of view of radio resource management. Expand
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Enabling LTE/WiFi coexistence by LTE blank subframe allocation
A simple coexistence scheme that reuses the concept of almost blank subframes in LTE is proposed, and it is observed that it can improve the WiFi throughput per user up to 50 times in the studied scenarios. Expand
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