Distributed Resource Allocation in Device-to-Device Enhanced Cellular Networks

Ye, Qiaoyang; Al-Shalash, Mazin; Caramanis, Constantine; Andrews, Jeffrey G.

doi:10.1109/tcomm.2014.2386874

Cited by 103 publications

(72 citation statements)

References 37 publications

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“…It is possible to have autonomous operations for D2D communications [21]. These communications are established, maintained, and terminated without the need of a cellular base station.…”

Section: Device-to-device (D2d) Networkmentioning

confidence: 99%

Architecture Considerations for Big Data Management

Meerja¹,

Mellouli²

2016

ijacsa

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Abstract-A network architecture is concerned with holistic view of interconnection of different nodes with each other. This refers to both physical and logical ways of interconnection of all nodes in the network. The way in which they are connected influences the strategies adopted for Big Data Management. In this present day of Internet of Things (IoT), each kind of device is required and made possible for communicating with other completely different kinds of devices. The heterogeneous nature of devices in the network needs a completely new architecture to efficiently handle Big Data which is generated continually, either for providing services to end users or for study and analysis in a research process. It is thus very essential to visit various kinds of devices that are available on the Internet, their characteristics and requirements, how they communicate and process data, and eventually how the human society embraces the Big Data generation for their daily consumption. This paper is dedicated to bringing all theses aspects together in one place, bringing different technologies into one single network architecture.

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“…It is possible to have autonomous operations for D2D communications [21]. These communications are established, maintained, and terminated without the need of a cellular base station.…”

Section: Device-to-device (D2d) Networkmentioning

confidence: 99%

Architecture Considerations for Big Data Management

Meerja¹,

Mellouli²

2016

ijacsa

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“…Therefore, most existing works propose heuristic or suboptimal methods [3]- [6]. Optimal results are only obtained in very special situations.…”

Section: Introductionmentioning

confidence: 99%

Potential games for subcarrier allocation in multi-cell networks with D2D communications

Penda

Abrardo

Moretti

et al. 2016

2016 IEEE International Conference on Communications (ICC)

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Abstract-This paper investigates the subcarrier allocation problem for uplink transmissions in a multi-cell network, where device-to-device communications are enabled. We focus on maximizing the aggregate transmission rate in the system accounting for both inter-and intra-cell interference. This problem is computationally hard due to its nonconvex and combinatorial nature. However, we show that it can be described by a potential game, and thus a Nash equilibrium can be found using iterative algorithms based on best/better response dynamics. In particular, we propose a simple iterative algorithm with limited signaling that is guaranteed to converge to an equilibrium point, corresponding to a local maximum of the potential function. Using extensive simulations, we show that the algorithm converges quickly also for dense networks, and that the distance to the true optimum is often small, at least for the small-sized networks for which we were able to compute the true optimum.

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“…The motivation for carrying out resource allocation is that D2D pairs and relays may occupy the same spectrum as regular cellular user and therefore introduce co-channel interference into the system. Existing studies in this area have mainly focused on the problems of resource allocation for direct D2D communication [11][12][13][14]. For example, Xu et al [12] proposed a reverse iterative combinatorial auction-based approach to allocate resources between cellular and D2D UEs.…”

Section: Introductionmentioning

confidence: 99%

A coalitional graph game framework for network coding-aided D2D communication

Zhao

Ding

et al. 2016

EURASIP J. Adv. Signal Process.

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The application of device-to-device (D2D) communication in cellular networks can significantly improve the efficiency of spectrum utilization, which benefits local area cooperative services. On the other hand, network coding can realize more efficient cooperation among cellular users. Thus, it is natural to combine network coding with D2D communication in order to further increase the system sum rate. In this paper, a coalitional graph game framework is proposed to jointly accomplish resource allocation and relay selection, two challenging problems in network coding-aided D2D communication networks. It is shown that this framework can model D2D communication combined with various network coding schemes. Based on the coalitional graph game framework, a distributed algorithm with low computational complexity is proposed to solve the formulated problem for physical layer network coding-aided D2D communication. Finally, the performance of the proposed transmission scheme is evaluated through extensive simulations.

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Distributed Resource Allocation in Device-to-Device Enhanced Cellular Networks

Cited by 103 publications

References 37 publications

Architecture Considerations for Big Data Management

Architecture Considerations for Big Data Management

Potential games for subcarrier allocation in multi-cell networks with D2D communications

A coalitional graph game framework for network coding-aided D2D communication

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