An efficient scheduling and admission control algorithm for IEEE 802.11e WLAN
Proceedings of the 2nd international conference on Ubiquitous information management and communication
Analysis of temporal and throughput fair scheduling in multirate WLANs
Computer Networks: The International Journal of Computer and Telecommunications Networking
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SECON'09 Proceedings of the 6th Annual IEEE communications society conference on Sensor, Mesh and Ad Hoc Communications and Networks
DPS: An Architecture for VBR Scheduling in IEEE 802.11e HCCA Networks with Multiple Access Points
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Computer Communications
Enhanced HCCA mechanism for multimedia traffics with QoS support in IEEE 802.11e networks
Journal of Network and Computer Applications
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International Journal of Ad Hoc and Ubiquitous Computing
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ACM Transactions on Multimedia Computing, Communications, and Applications (TOMCCAP)
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Proceedings of the 14th ACM international conference on Modeling, analysis and simulation of wireless and mobile systems
Dual token bucket based HCCA scheduler for IEEE 802.11e WLAN
Proceedings of the 4th International Conference on Uniquitous Information Management and Communication
Proceedings of the 15th ACM international conference on Modeling, analysis and simulation of wireless and mobile systems
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WiFlex'13 Proceedings of the First international conference on Wireless Access Flexibility
A dynamic channel reservation method for multimedia streaming in Wi-Fi Mesh networks
Automation and Remote Control
Next Generation Wireless Mobile System Efficient, Fair, Class Based Packet Scheduling Algorithm
Wireless Personal Communications: An International Journal
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In this paper we present a novel traffic scheduling algorithm for IEEE 802.11e, referred to as ARROW (adaptive resource reservation over WLANs), which aims at providing improved performance for the support of multimedia traffic. The novel characteristic of this algorithm, compared to previous proposals, is that it performs channel allocations based on the actual traffic buffered in the various mobile stations, i.e., on the exact transmission requirements. This feature renders ARROW ideal for variable bit rate traffic. However, an enhancement is also presented that improves ARROW performance under constant bit rate traffic. The ARROW algorithm and its enhancement are discussed and evaluated against two other schedulers found in the open technical literature, namely the simple scheduler and SETT-EDD. Results from a detailed simulation model verify that ARROW provides much better channel utilization and considerably improved performance, in terms of mean delay and packet loss