Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing

Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing

Merging mobile edge computing (MEC) service with the wireless local area networks (WLANs) provides enormous benefits such as intensive computation capabilities. Access to high-speed WLANs has become an urgent challenge due to the fast rate of application development and user adoption. Providing incr...

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Bibliographic Details
Main Authors: Yifeng Zhao, Xueting Xu, Yuhan Su, Lianfen Huang, Xiaojiang Du, Nadra Guizani
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
MEC
MAC protocol
massive MIMO
millimeter wave
resource pre-allocation
Online Access:https://ieeexplore.ieee.org/document/8894141/
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spelling doaj-76fd603233a64d43a60f506bb18aac0b2021-03-30T00:36:09ZengIEEEIEEE Access2169-35362019-01-01718124218125610.1109/ACCESS.2019.29521748894141Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge ComputingYifeng Zhao0Xueting Xu1https://orcid.org/0000-0001-6800-7274Yuhan Su2https://orcid.org/0000-0003-4813-019XLianfen Huang3Xiaojiang Du4Nadra Guizani5https://orcid.org/0000-0001-5332-2685Department of Communications Engineering, Xiamen University, Xiamen, ChinaDepartment of Communications Engineering, Xiamen University, Xiamen, ChinaDepartment of Communications Engineering, Xiamen University, Xiamen, ChinaDepartment of Communications Engineering, Xiamen University, Xiamen, ChinaDepartment of Computer and Information Sciences, Temple University, Philadelphia, PA, USADepartment of Electrical and Computer Engineering, Purdue University, West Lafayette, IN, USAMerging mobile edge computing (MEC) service with the wireless local area networks (WLANs) provides enormous benefits such as intensive computation capabilities. Access to high-speed WLANs has become an urgent challenge due to the fast rate of application development and user adoption. Providing increased wireless resources is one solution, but millimeter (mmWave) multi-user massive Multiple-Input Multiple-Output (MIMO) technology has also attracted attention due to a series of features such as high throughput, strong anti-interference ability, and small fading. Hence, exploring the potential of mmWave MIMO systems for WLAN could play a significant role in improving network performance, especially throughput. In this paper, we introduce mmWave and massive MIMO into traditional WLAN with MEC, which enables a large portion of spatial resources to be allocated among users, and mitigates inter-user interference. Moreover, we propose a novel media access control (MAC) protocol, named as LSMWN-MAC, to adapt to a series of unique characteristics of mmWave and massive MIMO, which adopts space division multiple access (SDMA) as one of the resource methods, taking full advantage of spatial resources. In addition, we modify the protocol and propose the MLSMWN-MAC protocol to allocate resources dynamically, a solution that is particularly suitable for scenes with 30-50 users. Simulation results show that compared to 802.11ad, the proposed two protocols can increase the saturated throughput by 4.7Gb/s and 5.4Gb/s respectively, which are close to the throughput upper limit of the mmWave MIMO system. Meanwhile, we observe that when the number of users exceeds the threshold, the performance of the LSMWN-MAC protocol using a static allocation method is superior to the MLSMWN-MAC protocol using a dynamic method. In other cases, the dynamic protocol has better performances.https://ieeexplore.ieee.org/document/8894141/MECMAC protocolmassive MIMOmillimeter waveresource pre-allocation
collection DOAJ
language English
format Article
sources DOAJ
author Yifeng Zhao
Xueting Xu
Yuhan Su
Lianfen Huang
Xiaojiang Du
Nadra Guizani
spellingShingle Yifeng Zhao
Xueting Xu
Yuhan Su
Lianfen Huang
Xiaojiang Du
Nadra Guizani
Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing
IEEE Access
MEC
MAC protocol
massive MIMO
millimeter wave
resource pre-allocation
author_facet Yifeng Zhao
Xueting Xu
Yuhan Su
Lianfen Huang
Xiaojiang Du
Nadra Guizani
author_sort Yifeng Zhao
title Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing
title_short Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing
title_full Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing
title_fullStr Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing
title_full_unstemmed Multi-User MAC Protocol for WLANs in MmWave Massive MIMO Systems With Mobile Edge Computing
title_sort multi-user mac protocol for wlans in mmwave massive mimo systems with mobile edge computing
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description Merging mobile edge computing (MEC) service with the wireless local area networks (WLANs) provides enormous benefits such as intensive computation capabilities. Access to high-speed WLANs has become an urgent challenge due to the fast rate of application development and user adoption. Providing increased wireless resources is one solution, but millimeter (mmWave) multi-user massive Multiple-Input Multiple-Output (MIMO) technology has also attracted attention due to a series of features such as high throughput, strong anti-interference ability, and small fading. Hence, exploring the potential of mmWave MIMO systems for WLAN could play a significant role in improving network performance, especially throughput. In this paper, we introduce mmWave and massive MIMO into traditional WLAN with MEC, which enables a large portion of spatial resources to be allocated among users, and mitigates inter-user interference. Moreover, we propose a novel media access control (MAC) protocol, named as LSMWN-MAC, to adapt to a series of unique characteristics of mmWave and massive MIMO, which adopts space division multiple access (SDMA) as one of the resource methods, taking full advantage of spatial resources. In addition, we modify the protocol and propose the MLSMWN-MAC protocol to allocate resources dynamically, a solution that is particularly suitable for scenes with 30-50 users. Simulation results show that compared to 802.11ad, the proposed two protocols can increase the saturated throughput by 4.7Gb/s and 5.4Gb/s respectively, which are close to the throughput upper limit of the mmWave MIMO system. Meanwhile, we observe that when the number of users exceeds the threshold, the performance of the LSMWN-MAC protocol using a static allocation method is superior to the MLSMWN-MAC protocol using a dynamic method. In other cases, the dynamic protocol has better performances.
topic MEC
MAC protocol
massive MIMO
millimeter wave
resource pre-allocation
url https://ieeexplore.ieee.org/document/8894141/
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AT xuetingxu multiusermacprotocolforwlansinmmwavemassivemimosystemswithmobileedgecomputing
AT yuhansu multiusermacprotocolforwlansinmmwavemassivemimosystemswithmobileedgecomputing
AT lianfenhuang multiusermacprotocolforwlansinmmwavemassivemimosystemswithmobileedgecomputing
AT xiaojiangdu multiusermacprotocolforwlansinmmwavemassivemimosystemswithmobileedgecomputing
AT nadraguizani multiusermacprotocolforwlansinmmwavemassivemimosystemswithmobileedgecomputing
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