Wireless Sensor Network

Volume 9, Issue 5 (May 2017)

ISSN Print: 1945-3078   ISSN Online: 1945-3086

Google-based Impact Factor: 1  Citations  

Single User MAC Level Throughput Comparision: IEEE 802.11ax vs. IEEE 802.11ac

HTML  XML Download Download as PDF (Size: 626KB)  PP. 166-177  
DOI: 10.4236/wsn.2017.95009    3,448 Downloads   8,007 Views  Citations
Author(s)

ABSTRACT

With the ever-increasing range of video and audio applications in portable handheld devices, demand for high throughput in Wi-Fi networks is escalating. In this paper we introduce several novel features defined in next generation WLAN, termed as IEEE 802.11ax standard, and compare between the maximum throughputs received in IEEE 802.11ax and IEEE 802.11ac in a scenario where the AP continuously transmits to one station in the Single User mode. The comparison is done as a function of the modulation/coding schemes in use. In IEEE 802.11ax we consider two levels of frame aggregation. IEEE 802.11ax outperforms IEEE 802.11ac by about 29% and 48% in reliable and unreliable channels respectively.

Share and Cite:

Sharon, O. and Alpert, Y. (2017) Single User MAC Level Throughput Comparision: IEEE 802.11ax vs. IEEE 802.11ac. Wireless Sensor Network, 9, 166-177. doi: 10.4236/wsn.2017.95009.

Cited by

[1] An Experimental Comparative Performance Study of Different WiFi Standards for Smart Cities Outdoor Environments
2022 IEEE 13th Annual Ubiquitous …, 2022
[2] A Survey of Wi-Fi 6: Technologies, Advances, and Challenges
Future Internet, 2022
[3] The ratio model between throughput and delay based on payload transmission time in wireless blockchain network
Scientific Reports, 2022
[4] Performance Analysis of IEEE802. 11ax (Wi-Fi 6) Technology using Multi-user MIMO and Up-Link OFDMA for Dense Environment
2021 IEEE 2nd International Conference …, 2021
[5] Time Restricted Frame Aggregation for Better QoS in IEEE 802.11 ac
Emerging Trends in Data Driven …, 2021
[6] E-LEARNING HUB: BUILDING WI-FI 6 NETWORK FOR COLLABORATIVE STUDYING.
… & Software for …, 2021
[7] Integration Frameworks for THz Wireless Technologies in Data Centre Networks
Next Generation Wireless Terahertz Communication Networks, 2021
[8] Comparative performance analysis of different schemes in IEEE802. 11n wireless LAN on MAC layer
2021
[9] High-efficiency WLANs for dense deployment scenarios
2019
[10] Throughput comparison between the new HEW 802.11 ax standard and 802.11 n/ac standards in selected distance windows
2019
[11] New IEEE 802.11 HEW Standard Throughput per User Analysis
2019
[12] Connecting One Belt One Road Countries via Wireless Sensor Network
2019
[13] Assessment of novel solutions for throughput enhancement in IEEE 802.11 ax networks
2019
[14] WI-FI 6: CARACTERÍSTICAS Y ASPECTOS PARTICULARES DEL ESTÁNDAR (IEEE-802.11 AX WI-FI 6: CHARACTERISTICS AND PARTICULAR ASPECTS OF THE …
2019
[15] WI-FI 6: Características Y Aspectos Particulares Del Estándar (Ieee-802.11 ax Wi-Fi 6: Characteristics And Particular Aspects Of The Ieee-802.11 ax Standard)
2019
[16] AP-initiated multi-user transmissions in IEEE 802.11 ax WLANs
Ad Hoc Networks, 2018
[17] QoS Evaluation of the Future High-Efficiency IEEE 802.11 ax WLAN Standard
2018
[18] A tutorial on IEEE 802.11 ax high efficiency WLANs
2018
[19] Advanced IEEE 802.11 ax TCP aware scheduling under unreliable channels
2018
[20] Optimizing TCP Goodput and Delay in next generation IEEE 802.11 (ax) devices
2017
[21] The 17th International Scientific Conference eLearning and Software for Education Bucharest, April 22-23, 2021

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.