Self-Organizing TDMA MAC Protocol for Effective Capacity Improvement in IEEE 802.11 WLANs

Khan, Yahya; Derakhshani, Mahsa; Parsaeefard, Saeedeh; Le‐Ngoc, Tho

doi:10.1109/glocomw.2015.7414195

Cited by 9 publications

(7 citation statements)

References 17 publications

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“…Wireless local area network (WLAN) provides a connectivity of two or more computers or devices over a limited area. WLAN follows the standard 802.11, and can be connected to Internet through a gateway [136], [266], [267]. EC concept in WLAN has been used to investigate the performance of WLAN [64], [203], [268] for multimedia applications.…”

Section: Wlanmentioning

confidence: 99%

Effective Capacity in Wireless Networks: A Comprehensive Survey

Amjad

Musavian

Rehmani

2019

IEEE Commun. Surv. Tutorials

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Low latency applications, such as multimedia communications, autonomous vehicles, and Tactile Internet are the emerging applications for next-generation wireless networks, such as 5th generation (5G) mobile networks. Existing physicallayer channel models, however, do not explicitly consider qualityof-service (QoS) aware related parameters under specific delay constraints. To investigate the performance of low-latency applications in future networks, a new mathematical framework is needed. Effective capacity (EC), which is a link-layer channel model with QoS-awareness, can be used to investigate the performance of wireless networks under certain statistical delay constraints. In this paper, we provide a comprehensive survey on existing works, that use the EC model in various wireless networks. We summarize the work related to EC for different networks such as cognitive radio networks (CRNs), cellular networks, relay networks, adhoc networks, and mesh networks. We explore five case studies encompassing EC operation with different design and architectural requirements. We survey various delay-sensitive applications such as voice and video with their EC analysis under certain delay constraints. We finally present the future research directions with open issues covering EC maximization.

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Section: Wlanmentioning

confidence: 99%

Effective Capacity in Wireless Networks: A Comprehensive Survey

Amjad

Musavian

Rehmani

2019

IEEE Commun. Surv. Tutorials

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“…In light of Eq. (4), an over-burden cut m in APi can be distributed a most extreme RBs, R maxim , as takes after: U t, which applies the idea of the Virtual Clock [12]. This administration clock is synchronized with the clock of a LiFi AP, when a stream is conceded.…”

Section: Slice Benefit Estimation Modulementioning

confidence: 99%

An Enhanced on Bidirectional LI-FI Attocell Access Point Slicing and Virtualization using Das2 Conspire

2019

ijrte

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LiFi attocell get to systems will be conveyed wherever to help different applications and administration provisioning to different end-clients. The LiFi foundation suppliers should offer LiFi passages (APs) assets as an administration. This, be that as it may, requires an exploration test to be fathomed to progressively and adequately allot assets amonspecialist co-ops (SPs), while ensuring execution detachment among them and their separate clients. This paper presents an autonomic asset cutting (virtualization) conspire, which acknowledges autonomic administration and setup of virtual APs, in a LiFi Attocell get to arrange, in light of SP’s and their clients benefit necessities. The proposed asset cutting plan gathers and breaks down the movement insights of the distinctive applications upheld on the cuts characterized in each LiFi AP and appropriates the accessible assets reasonably and relatively among them. It utilizes a control calculation to change the base conflict window of client gadgets to accomplish the objective throughput and guarantee broadcast appointment decency among SP’s and their clients.

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“…From the provided results seems this more appropriate for indoor based wireless sensor networks and not reliable for outdoor backhaul or point to multipoint communication (last mile connectivity). Khan et al (2015) proposed a different TDMA approach. Particularly, it's background is based on pseudo-time division multiple access (PTDMA).…”

Section: Fig 24 Time Division Multiple Access Latency With Differementioning

confidence: 99%

Investigation of Media Access Control in Wireless Networks

Cuzanauskas¹

2018

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Vadovas doc. dr. Aurimas ANSKAITIS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-01T) (2013-2016), prof. dr. Šarunas PAULIKAS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-01T) (2017-2018). Vilniaus Gedimino technikos universiteto Elektros ir elektronikos inžinerijos mokslo krypties disertacijos gynimo taryba: Pirmininkas prof. dr. Dalius NAVAKAUSKAS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-01T). Nariai: dr. Rimvydas ALEKSIEJŪNAS (Vilniaus universitetas, fizika-02P), prof. dr. Artūras SERACKIS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-01T), dr. Szymon SZOTT (Stanislavo Stašico vardo kalnakasybos ir metalurgijos akademija, elektros ir elektronikos inžinerija-01T), doc. dr. Dainius UDRIS (Vilniaus Gedimino technikos universitetas, technologijos mokslai, elektros ir elektronikos inžinerija-01T). Disertacija bus ginama viešame Elektros ir elektronikos inžinerijos mokslo krypties disertacijos gynimo tarybos posėdyje 2018 m. rugpjūčio 27 d. 14 val. Vilniaus Gedimino technikos universiteto senato posėdžių salėje.

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Self-Organizing TDMA MAC Protocol for Effective Capacity Improvement in IEEE 802.11 WLANs

Cited by 9 publications

References 17 publications

Effective Capacity in Wireless Networks: A Comprehensive Survey

Effective Capacity in Wireless Networks: A Comprehensive Survey

An Enhanced on Bidirectional LI-FI Attocell Access Point Slicing and Virtualization using Das2 Conspire

Investigation of Media Access Control in Wireless Networks

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