C.B. Ribeiro scite author profile

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. The approach of the study is a tight integration of D2D communication into an LTE-Advanced network. In particular, we propose mechanisms for D2D communication session setup and management involving procedures in the LTE System Architecture Evolution. Moreover, we present numerical results based on system simulations in an interference limited local area scenario. Our results show that D2D communication can increase the total throughput observed in the cell area. Device-to-Device Communication as an Underlay to LTE-Advanced NetworksIn the feasibility analysis we studied D2D communication in a local area cellular network. Even though the cellular network may be interference limited already by the cellular communication alone, the D2D peers are still able to use the D2D communication opportunity if they are close and located in the same room.

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Mode Selection for Device-To-Device Communication Underlaying an LTE-Advanced Network

Doppler

Yu²,

Ribeiro

et al. 2010

391

234

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Interference-Aware Resource Allocation for Device-to-Device Radio Underlaying Cellular Networks

Janis¹,

Koivunen²,

Ribeiro

et al. 2009

363

197

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Device-to-Device Communication Underlaying Cellular Communications Systems

Janis¹,

Yu²,

Doppler³

et al. 2009

IJCNS

319

180

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In this article we propose to facilitate local peer-to-peer communication by a Device-to-Device (D2D) radio that operates as an underlay network to an IMT-Advanced cellular network. It is expected that local services may utilize mobile peer-to-peer communication instead of central server based communication for rich multimedia services. The main challenge of the underlay radio in a multi-cell environment is to limit the interference to the cellular network while achieving a reasonable link budget for the D2D radio. We propose a novel power control mechanism for D2D connections that share cellular uplink resources. The mechanism limits the maximum D2D transmit power utilizing cellular power control information of the devices in D2D communication. Thereby it enables underlaying D2D communication even in interference-limited networks with full load and without degrading the performance of the cellular network. Secondly, we study a single cell scenario consisting of a device communicating with the base station and two devices that communicate with each other. The results demonstrate that the D2D radio, sharing the same resources as the cellular network, can provide higher capacity (sum rate) compared to pure cellular communication where all the data is transmitted through the base station.

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On the Performance of Device-to-Device Underlay Communication with Simple Power Control

Yu¹,

Tirkkonen²,

Doppler

et al. 2009

265

169

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C.B. Ribeiro

Device-to-device communication as an underlay to LTE-advanced networks

Mode Selection for Device-To-Device Communication Underlaying an LTE-Advanced Network

Interference-Aware Resource Allocation for Device-to-Device Radio Underlaying Cellular Networks

Device-to-Device Communication Underlaying Cellular Communications Systems

On the Performance of Device-to-Device Underlay Communication with Simple Power Control

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