2016
DOI: 10.1002/wcm.2686
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Mesh adaptive direct search approach for D2D resource management

Abstract: Device-to-device (D2D) communications are being considered a way forward to achieve higher data rate targets for futuristic wireless networks. D2D introduces interference among cellular users and D2D users. A joint resource allocation (JRA) strategy in cellular network with D2D functionality can definitely enhance overall data rate. The strategy under consideration maximizes the overall data rate of cellular network besides meeting threshold of power and interference constraints. The JRA is a class of mixed in… Show more

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Cited by 9 publications
(3 citation statements)
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References 33 publications
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“…Zhang et al formulated distributed resource allocation problem in D2D assisted cellular systems as a coalition formation game and proposed distributed merge‐and‐split algorithm to solve the problem. Ahmad et al propose a joint resource allocation strategy in D2D underlaying cellular network using mesh adaptive search. Dai et al present a framework based on stochastic geometry for D2D multichannel overlaying uplink cellular networks, which is able to calculate the data rate of UEs and coverage probability.…”
Section: Literature Reviewmentioning
confidence: 99%
See 1 more Smart Citation
“…Zhang et al formulated distributed resource allocation problem in D2D assisted cellular systems as a coalition formation game and proposed distributed merge‐and‐split algorithm to solve the problem. Ahmad et al propose a joint resource allocation strategy in D2D underlaying cellular network using mesh adaptive search. Dai et al present a framework based on stochastic geometry for D2D multichannel overlaying uplink cellular networks, which is able to calculate the data rate of UEs and coverage probability.…”
Section: Literature Reviewmentioning
confidence: 99%
“…It also emphasizes that quite a few researchers have worked on Ds2D, whereas Ds2Ds is still an untapped area highlighting the importance of this work as it has not been considered so far. 19 OB D2D Increasing opportunistic gain in small cells is discussed in this paper through spreading of eNB traffic Kim and Dong 20 UL IB D2D Method to allocate resources and select relays jointly in D2D communication is presented Fodor et al 5 UL IB D2D LTE-based design technique for resource allocation in D2D is presented Zhang et al 21 UL IB D2D Resource sharing problem in D2D underlaying cellular networks using coalitional game and cooperative user group idea is presented Ahmad et al 22 UL IB D2D Joint resource allocation strategy in D2D underlaying cellular network using mesh adaptive search approach is delineated Dai et al 23 OL IB D2D A framework based on stochastic geometry is proposed for D2D multichannel overlaying uplink cellular networks, which is able to calculate the data rate of UEs and coverage probability Abrar and Gui 24 OL IB D2D Minimum Rate Proportional Fairness algorithm is proposed to maximize the sum rate of the system while maintaining proportional fairness among both cellular and D2D users Ismail et al 25 UL IB Ds2D…”
Section: Literature Reviewmentioning
confidence: 99%
“…To introduce the D2D communication method, the researchers studied from three directions: model selection [17], power control [17,18], spectrum allocation [18,19], and channel access mechanism [20,21]. Similar to the coexistence mechanism of LTE-U and Wi-Fi, researchers also hope to avoid interference in the time domain.…”
Section: Introductionmentioning
confidence: 99%