ARROW: An Efficient Traffic Scheduling Algorithm for IEEE 802.11e HCCA

Skyrianoglou, D.; Passas, Nikos; Salkintzis, A.K.

doi:10.1109/twc.2006.256978

Cited by 69 publications

(47 citation statements)

References 5 publications

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“…reference solution in [9], or Variable Bit Rate (VBR, e.g. video) [10,11] streams with IEEE 802.11 HCCA 1 . Unfortunately, these algorithms cannot be directly used in mesh networking, since they require reallocation of reserved resources on the fly, which is provided in centralized schemes by the ability of the coordinator to fully control the wireless channel.…”

Section: Parameterized Qos Support Via Deterministic Access: State-ofmentioning

confidence: 99%

Dynamic Resource Allocation for MCCA-Based Streaming in Wi-Fi Mesh Networks

Khorov

Krasilov

Lyakhov

et al. 2013

Wireless Access Flexibility

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Abstract. The IEEE 802.11s standard defines a novel deterministic channel access method called MCCA. In preliminarily reserved time intervals, MCCA allows packet transmission from the owner of the reservation to the intended receiver, while their neighbors are forbidden to access the channel. Such a protection decreases the interference from hidden stations, allowing to improve reliability of transmission between two stations, which makes MCCA a promising method to transmit real-time multimedia streams with parameterized QoS support. However, both random noise and interference from the stations out of one-hop neighborhood may cause transmission errors, increasing packet loss ratio. In this paper, we consider various mechanisms for protecting reservations from interference and propose a method to find the amount of reserved channel resources and the type of protection needed to meet QoS requirements while transmitting the data with MCCA in case of varying channel conditions.

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Section: Parameterized Qos Support Via Deterministic Access: State-ofmentioning

confidence: 99%

Dynamic Resource Allocation for MCCA-Based Streaming in Wi-Fi Mesh Networks

Khorov

Krasilov

Lyakhov

et al. 2013

Wireless Access Flexibility

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“…The traffic scheduling algorithm proposed by Skyrianoglou, Passas and Salkintzis [27], which is referred to as adaptive resource reservation over WLANs (ARROW), performs channel allocation based on the actual traffic buffered in the various mobile stations. The adaptive TXOP allocation mechanism proposed in [28] by Arora et al works in accordance with the channel and traffic conditions and complies with the link adaptation mechanism to ensure long-term fairness among the wireless stations.…”

Section: Qos At Hcf Controlled Channel Access (Hcca)mentioning

confidence: 99%

Quality of service provision in mobile multimedia - a survey

Luo

Shyu

2011

Hum. Cent. Comput. Inf. Sci.

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The prevalence of multimedia applications has drastically increased the amount of multimedia data. With the drop of the hardware cost, more and more mobile devices with higher capacities are now used. The widely deployed wireless LAN and broadband wireless networks provide the ubiquitous network access for multimedia applications. Provision of Quality of Service (QoS) is challenging in mobile ad hoc networks because of the dynamic characteristics of mobile networks and the limited resources of the mobile devices. The wireless network is not reliable due to node mobility, multi-access channel and multi-hop communication. In this paper, we provide a survey of QoS provision in mobile multimedia, addressing the technologies at different network layers and cross-layer design. This paper focuses on the QoS techniques over IEEE 802.11e networks. We also provide some thoughts about the challenges and directions for future research.

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“…Meanwhile, adaptive resource reservation over WLAN (ARROW) [7,8] proposes a TXOP duration adjustment based on the queue size. Once QAP polls a QSTA, QSTA responses with the queue size of total packets waiting for transmission.…”

Section: Feedback Information For Estimating the Next Txop Durationmentioning

confidence: 99%

“…[6] proposed mechanism to adjust TXOP duration based on the remaining queue length feedback information. This mechanism is the most popular among researchers due to its implementation simplicity (only one parameter is needed, while all calculations are deployed only at QAP); While [7,8] implemented the earliest deadline-driven mechanism for supporting the time-critical packets. In case of video transmission, [9] utilized the information (I-frame, B-frame and P-frame requirements) from the application layer to suitably mapping packets to appropriate queue.…”

Section: Introductionmentioning

confidence: 99%

Adjustable TXOP mechanism for supporting video transmission in IEEE 802.11e HCCA

Jansang

Phonphoem

2011

J Wireless Com Network

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The basic mechanism of HCCA (HCF Control Channel Access) has been introduced in IEEE 802.11e standard to support the parameterized QoS by allocating a fixed duration based on the requested TSPEC requirements during the admission control process. However, the variable bit rate (VBR) traffic (e.g., MPEG-2 and MPEG-4 video) cannot be surely supported. In this study, the adjustable TXOP mechanism for supporting video transmission, ATMV, has been proposed. The mechanism adaptively adjusts the TXOP duration according to a finite state machine based on feedback queue size information. The mechanism aims for prompt serving burst packets, generated from the incoming video frames, which finally minimizes the packet delay. Both system performance (mean packet delay, TXOP loss factor, and channel occupancy) and video quality (PSNR and MOS values) have been evaluated from five video clips in three categories by using the network simulator, NS2, with EvalVid toolset. The results reveal that the proposed mechanism performs well for rapid movement video category and adequately supports for other video categories.

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ARROW: An Efficient Traffic Scheduling Algorithm for IEEE 802.11e HCCA

Cited by 69 publications

References 5 publications

Dynamic Resource Allocation for MCCA-Based Streaming in Wi-Fi Mesh Networks

Dynamic Resource Allocation for MCCA-Based Streaming in Wi-Fi Mesh Networks

Quality of service provision in mobile multimedia - a survey

Adjustable TXOP mechanism for supporting video transmission in IEEE 802.11e HCCA

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