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

Janis, Pekka; Koivunen, Visa; Ribeiro, C.B.; Korhonen, Jukka; Doppler, Klaus; Hugl, Klaus

doi:10.1109/vetecs.2009.5073611

Cited by 363 publications

(201 citation statements)

References 6 publications

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“…Based on which kinds of frequency bands (namely, licensed bands and unlicensed bands) have been used for D2D transmission in past studies, D2D transmission can be divided into the following four categories: (1) D2D transmission using only licensed bands (such as that described in [11][12][13][14][15][16][17][18][19][20][21][22][23][24]); (2) D2D transmission using only unlicensed bands (such as that described in [11,[24][25][26][27][28][29][30][31]); (3) D2D transmission using either licensed or unlicensed bands in a selective manner (such as that described in [32,33]); and (4) D2D transmission using both the licensed and unlicensed bands simultaneously (such as that described in [34]). Regarding the first two categories, Asadi et al [11] presented a D2D communication survey and overview showing that the traffic loads and transmission delays encountered by BSs can be effectively ameliorated by D2D connections, with such connections simultaneously having the effects of increased system throughput and improved energy usage efficiency (which result, in turn, in reductions in the total amount of power expended by a network).…”

Section: Related Workmentioning

confidence: 99%

“…Meanwhile, Janis et al [13] and Zulhasnine et al [14] also proposed resource allocation schemes by which interference levels could potentially be reduced, although both schemes are limited by the fact that they can only be utilized for D2D pairs themselves. More recently, a number of other relevant studies have also been produced, including those by Feng et al [15] and Wen et al [16], that presented yet more resource allocation schemes that could potentially be of benefit.…”

Section: Related Workmentioning

confidence: 99%

See 1 more Smart Citation

Energy-Efficient Use of Licensed and Unlicensed Bands in D2D-Assisted Cellular Network Systems

Chung

2017

Energies

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Abstract:To date, the amount of research conducted regarding the subject of energy-efficient transmission in device-to-device (D2D)-assisted cellular network systems simultaneously utilizing both licensed and unlicensed bands is lacking. This topic is of substantial relevance to emerging 5th-generation (5G) cellular network systems, so the present study was conducted in order to address it in a practical manner. Specifically, this study proposes a simple yet effective algorithm aimed at ensuring efficient energy usage when such network systems make transmissions while utilizing both licensed and unlicensed bands. Based on novel system configurations with respect to bandwidth and link mode configurations, the proposed D2D-assisted transmission algorithm was designed with a system-level perspective in mind in order to yield greater efficiency in terms of transmission mode selection and link mode selection. As a result of these features, the proposed algorithm can not only maintain acceptable rates of transmission for all the connected users, but can also enhance system performance by a significant degree in terms of both energy efficiency and connection efficiency. Moreover, the results of simulations conducted to test the algorithm indicate that it is not only feasible, but, given its simple yet effective design, also easy to implement, such that it can serve as a valuable reference for the operators of 5G networks.

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Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Energy-Efficient Use of Licensed and Unlicensed Bands in D2D-Assisted Cellular Network Systems

Chung

2017

Energies

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“…The power control scheme ensures a certain threshold SINR for CUEs and imposes a maximum limit on SINR of DUEs. Upon comparison with [33], it has been shown that a better sum rate can be achieved by using the proposed scheme.…”

Section: Combined Power Control and Resource Allocationmentioning

confidence: 99%

“…Janis et al propose a resource allocation scheme [33] and a power control scheme [10] for CUEs and DUEs working in an underlay cellular network. The scheme reallocates the CUE resources to DUEs in such a manner that it causes least interference to CUEs.…”

Section: Combined Power Control and Resource Allocationmentioning

confidence: 99%

SC-FDMA-based resource allocation and power control scheme for D2D communication using LTE-A uplink resource

Shah

Hasan

et al. 2015

J Wireless Com Network

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Device-to-device (D2D) communication-enabled cellular networks allow cellular devices to directly communicate with each other without any evolved NodeB (eNB). D2D communication aims to improve the spectral efficiency and increases the overall system capacity. For future mobile networks, intelligent radio resource allocation and power control schemes are required to accommodate the increasing number of cellular devices and their growing demand of data traffic. In this paper, a combined resource allocation and power control scheme for D2D communication is proposed. In the proposed scheme, D2D communication reuses the uplink (UL) resources of conventional cellular user equipments (CUEs); therefore, we have adopted single-carrier frequency division multiple access (SC-FDMA) as UL transmission scheme. The proposed scheme uses fractional frequency reuse (FFR)-based architecture to efficiently allocate the resources and mitigate the interference between CUEs and D2D user equipments (DUEs). In order to guarantee the user fairness, the proposed scheme uses the well-known proportional fair (PF) scheduling algorithm for resource allocation. We have also proposed an intelligent power control scheme which provides equal opportunity to both CUEs and DUEs to achieve a certain minimum signal-to-interference and noise ratio (SINR) value. The performance evaluation results show that the proposed scheme significantly improves the overall cell capacity and achieves low peak-to-average power ratio (PAPR).

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“…The work in [4] and [5] control the interference of the D2D links to the cellular users by limiting the maximum transmit power of the D2D users. Authors in [6] aim at minimizing the maximum interferences from both cellular users to D2D users and from Part of this work has been performed in the framework of the FP7 project ICT-317669 METIS, which is partly funded by the European Union. The authors would like to acknowledge the contributions of their colleagues in METIS, although the views expressed are those of the authors and do not necessarily represent the project.…”

Section: Introduction and Related Workmentioning

confidence: 99%

Interference management for multiple device-to-device communications underlaying cellular networks

Shalmashi

Miao

Slimane

2013

2013 IEEE 24th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

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Interference management for multiple device-to-device communications underlaying cellular networks. In: 2013 IEEE 24th International Symposium on Personal Indoor and Mobile RadioCommunications (PIMRC) (pp. 223-227 SERVEH SHALMASHI, GUOWANG MIAO, SLIMANE BEN SLIMANEThis is an author produced version of the paper.Access to the published version may require subscription.Published with permission from: IEEE Abstract-We study the problem of interference management for device-to-device (D2D) communications where multiple D2D users may coexist with one cellular user. The problem is to optimize the transmit power levels of D2D users to maximize the cell throughput while preserving the signal-to-noise-plusinterference ratio (SINR) performance for the cellular user. This is the so-called multi rate power control problem. We investigate the problem under two assumptions, the availability of the instantaneous or average channel state information (CSI) at the base station. In the first case, D2D transmit power levels adapt to fast fading, whereas in the second case, they only adapt to slow fading. In the latter assumption, the cellular user has a maximum outage probability requirement. With numerical results, we study the trade-off between the signaling overhead, that is frequent CSI feedbacks, and the overall system performance, that is the maximum achievable cell capacity, for D2D communications underlying cellular networks.

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

Cited by 363 publications

References 6 publications

Energy-Efficient Use of Licensed and Unlicensed Bands in D2D-Assisted Cellular Network Systems

Energy-Efficient Use of Licensed and Unlicensed Bands in D2D-Assisted Cellular Network Systems

SC-FDMA-based resource allocation and power control scheme for D2D communication using LTE-A uplink resource

Interference management for multiple device-to-device communications underlaying cellular networks

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