A Novel WLAN Vehicle-To-Anything (V2X) Channel Access Scheme for IEEE 802.11p-Based Next-Generation Connected Car Networks

Ahn, Jinsoo; Kim, Young Yong; Kim, Ronny Yongho

doi:10.3390/app8112112

Cited by 11 publications

(12 citation statements)

References 34 publications

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“…Additionally, the average channel access delay increases proportionally to the data frame length. Therefore, for urgent transmissions, large data frames should either be avoided or dedicated RUs should be set aside for delay-intolerant data as proposed, e.g., in [25]. Finally, similar dependencies can be observed for other UORA types because this is a result of data vs. overhead length.…”

Section: B Data Frame Lengthmentioning

confidence: 80%

“…The second most popular topic is the coexistence of random access and scheduled access [11]- [15]. Other works propose novel MAC protocols [16], [17], extend UORA to provide deterministic channel access [18]- [20], introduce efficient channel schedulers [21], or modifying UORA version to support Vehicle-to-Anything (V2X) communication [25]. These are mainly theoretical studies verified by simulations.…”

Section: State Of the Artmentioning

confidence: 99%

“…V2X UORA-based channel access for dense IEEE 802.11p connected car networks is addressed in [25]. It is proposed that dedicated RUs should be used for high priority sensor stations gathering traffic information and transmitting periodical reports to V2X infrastructure.…”

Section: G V2x Communicationsmentioning

confidence: 99%

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An Efficient Backoff Procedure for IEEE 802.11ax Uplink OFDMA-Based Random Access

Kosek-Szott

Domino

2022

IEEE Access

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IEEE 802.11ax stations can use multi-user (MU) uplink OFDMA-based random access (UORA) to improve per-station throughput in dense deployments in comparison to legacy IEEE 802.11 single-user access. Unfortunately, UORA suffers from a high collision probability and low efficiency under high contention. In this paper, we address this problem by modifying the UORA backoff selection method. The proposed solution allows an access point to adjust the OFDMA random access backoff (OBO) countdown rate to decrease the probability of uplink transmission failures. The implemented changes considerably improve UORA performance. We show through extensive simulations, that the proposed efficient OFDMA random access backoff (E-OBO) ensures throughput, efficiency, and collision probability close to optimal and outperforms state-of-the-art solutions.INDEX TERMS IEEE 802.11ax, uplink OFDMA random access, UORA, efficiency.

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Section: B Data Frame Lengthmentioning

confidence: 80%

Section: State Of the Artmentioning

confidence: 99%

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An Efficient Backoff Procedure for IEEE 802.11ax Uplink OFDMA-Based Random Access

Kosek-Szott

Domino

2022

IEEE Access

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“…As discussed in Section 2, since an ideal physical channel condition is assumed, the packet error rate and the mobility of VSTAs are not considered, the main focus is the performance impact of packet collision given the VSTA density varies from 0.03 to 0.12. Following the typical characteristics of BSM traffic employed in related works [21,26,27,33,42], 200 Bytes payload size and 10 Hz arrival rate BSM traffic is considered to be moderate data traffic in the simulation. In addition, in order to emulate future platooning environments with higher requirements, 400 Bytes payload size and 20 Hz arrival rate BSM traffic is used for the simulation as heavy data traffic.…”

Section: Performance Evaluationmentioning

confidence: 99%

“…Yang et al proposed a Markov chain analysis of TUA Uplink Orthogonal Frequency Division Multiple Access (OFDMA) Random Access (UORA) in saturated traffic condition [32]. In [33], a V2I channel access scheme using TUA was proposed.…”

Section: Introductionmentioning

confidence: 99%

Distributed Triggered Access for BSM Dissemination in 802.11bd V2V Networks

Ahn

Kim

2019

Applied Sciences

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In this paper, a novel channel access scheme, Distributed Triggered Access (DTA), is proposed for distributed V2V Basic Safety Message (BSM) dissemination in future platooning environment. To meet the stringent delay requirements of platooning communications, the proposed scheme is designed to use Wireless Local Area Network (WLAN) multi-user channel access in a distributed manner. The proposed scheme leverages advanced Medium Access Control (MAC) layer features, such as Triggered Uplink Access and Multi-user Request-To-Send (RTS), introduced in the 6th generation mainstream WLAN standard, IEEE 802.11ax, based upon a conceptual Physical (PHY) layer frame structure for IEEE 802.11bd, the successor of IEEE 802.11p. The proposed scheme is analyzed by mathematical model and simulations from transmission delay and successful transmission rate perspective. The mathematical model includes a Markov chain analysis that models the Enhanced Distributed Channel Access (EDCA) backoff procedure of DTA considering the effect of resumed backoff procedure with empty buffer caused by triggered access. Also, a Markov arrival/General service distribution/1 service channel (M/G/1) queuing model is provided to analyze the transmission delay of a BSM under unsaturated traffic condition. The extensive simulation results corroborate that DTA effectively improves the transmission success rate and reduces the average BSM collecting delay in a highly congested environment.

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Novel path similarity aware clustering and safety message dissemination via mobile gateway selection in cellular 5G-based V2X and D2D communication for urban environment

Alghamdi¹

2020

Ad Hoc Networks

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A Novel WLAN Vehicle-To-Anything (V2X) Channel Access Scheme for IEEE 802.11p-Based Next-Generation Connected Car Networks

Cited by 11 publications

References 34 publications

An Efficient Backoff Procedure for IEEE 802.11ax Uplink OFDMA-Based Random Access

An Efficient Backoff Procedure for IEEE 802.11ax Uplink OFDMA-Based Random Access

Distributed Triggered Access for BSM Dissemination in 802.11bd V2V Networks

Novel path similarity aware clustering and safety message dissemination via mobile gateway selection in cellular 5G-based V2X and D2D communication for urban environment

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