An Analysis of the Mixed IEEE 802.11ax Wireless Networks in the 5 GHz Band

Natkaniec, Marek; Bieryt, Natalia

doi:10.3390/s23104964

Cited by 5 publications

(4 citation statements)

References 31 publications

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“…Guidelines for static channel bonding were derived considering node characteristics. The authors of (Natkaniec et al, 2023) analyzed the coexistence of 802.11ax stations with other legacy stations. The study investigated the effect on system performance caused by the BSS coloring, A-MPDU, and A-MSDU aggregations.…”

Section: Related Workmentioning

confidence: 99%

Performance Evaluation of the Giga-bit 802.11ac Based WLANs

Bourawy,

Abdalla

2024

mjbs

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Wireless local area networks based on the legacy 802.11-1997 standard brought about a new era in wireless communications, enabling users to utilize the Internet anytime, anywhere. About two decades later, the IEEE 802.11ac amendment was released that broke the Gigabit-Ethernet barrier for wireless local area networks (WLANs). This amendment introduced improvements to the first and second layers (PHY and MAC) of the standard. The very high throughput was accomplished by improving the modulation mechanism, adding more spatial streams, utilizing broader channels, exploiting beam-forming techniques, and allowing for better frame aggregation. In this article, a simulation evaluation is conducted to investigate the performance of the 802.11ac considering the enhancements introduced by this amendment. The main metric used in this study is the system throughput. In addition, the average delay metric is also considered for investigation. Different simulation scenarios are considered to examine the previously mentioned features and enhancements. Results showed that the system throughput of 802.11ac increases with larger channel sizes, improved modulation schemes, and more spatial streams. The frame aggregation has been indicated to be an effective mechanism for alleviating unwanted overheads, which consequently increased the overall throughput.

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Section: Related Workmentioning

confidence: 99%

Performance Evaluation of the Giga-bit 802.11ac Based WLANs

Bourawy,

Abdalla

2024

mjbs

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“…In addition to the problem of inconsistency with the standard behavior, there are issues of coexistence between modern and legacy 802.11 devices. Papers [25][26][27][28] consider cases when legacy devices partially or completely disrupt the work of new Wi-Fi mechanisms. The studies show that such cases are widespread, and possible problems with similar behavior are not ignored.…”

Section: Quieting Framework and Related Workmentioning

confidence: 99%

False Protection of Real-Time Traffic with Quieting in Heterogeneous Wi-Fi 7 Networks: An Experimental Study

Barannikov,

Levitsky,

Khorov

2023

Sensors

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To provide limited delays for remote sensing and control, gaming, and virtual reality applications, the Wi-Fi 7 standard introduces the Restricted Target Wake Time (R-TWT) mechanism, which reserves time intervals for particular stations with such real-time traffic. As legacy stations do not support R-TWT, the access point forbids channel access during these intervals for legacy stations. Quiet Intervals have been announced for this purpose. Since the support for the Quieting Framework can be configured as mandatory in some networks, Quiet Intervals are assumed to be valid protection for R-TWT. The paper describes experimental results with mass-market devices that disprove this assumption. The paper reveals significant inconsistencies between the standard and widely used devices, e.g., the inability to schedule multiple Quiet Intervals. It will be a significant problem for Wi-Fi 7 devices using R-TWT in heterogeneous networks with legacy devices and will require much effort from academia and industry to solve.

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“…However, the problem remains that many devices still only support older versions of the standard, creating a significant security vulnerability. Additionally, these older devices are unlikely to be replaced by newer ones due to cost and lack of awareness from users [ 3 ]. This results in a large number of users being at risk of various types of network attacks on both the physical [ 4 ] and MAC layers [ 5 ].…”

Section: Introductionmentioning

confidence: 99%

Wireless Local Area Networks Threat Detection Using 1D-CNN

Natkaniec

Bednarz

2023

Sensors

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Wireless Local Area Networks (WLANs) have revolutionized modern communication by providing a user-friendly and cost-efficient solution for Internet access and network resources. However, the increasing popularity of WLANs has also led to a rise in security threats, including jamming, flooding attacks, unfair radio channel access, user disconnection from access points, and injection attacks, among others. In this paper, we propose a machine learning algorithm to detect Layer 2 threats in WLANs through network traffic analysis. Our approach uses a deep neural network to identify malicious activity patterns. We detail the dataset used, including data preparation steps, such as preprocessing and division. We demonstrate the effectiveness of our solution through series of experiments and show that it outperforms other methods in terms of precision. The proposed algorithm can be successfully applied in Wireless Intrusion Detection Systems (WIDS) to enhance the security of WLANs and protect against potential attacks.

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An Analysis of the Mixed IEEE 802.11ax Wireless Networks in the 5 GHz Band

Cited by 5 publications

References 31 publications

Performance Evaluation of the Giga-bit 802.11ac Based WLANs

Performance Evaluation of the Giga-bit 802.11ac Based WLANs

False Protection of Real-Time Traffic with Quieting in Heterogeneous Wi-Fi 7 Networks: An Experimental Study

Wireless Local Area Networks Threat Detection Using 1D-CNN

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