function of IEEE 802.11e standard defines multiple Access Categories (AC) with AC-specific Contention Window (CW) sizes, Arbitration Interframe Space (AIFS) values, and Transmit Opportunity (TXOP) limits to support MAC-level Quality-of-Service (QoS). In this paper, we propose an analytical model for the EDCA function which incorporates an accurate CW, AIFS, and TXOP differentiation at any traffic load. The proposed model is also shown to capture the effect of MAC layer buffer size on the performance. Analytical and simulation results are compared to demonstrate the accuracy of the proposed approach for varying traffic loads, EDCA parameters, and MAC layer buffer space. I
Extensive research addressing IEEE 802.11e enhanced distributed channel access (EDCA) performance an...
Abstract—In this letter, we propose a three-dimensional Markov chain model for the 802.11e enhanced ...
Contention Free Burst (CFB) is a promising burst transmission scheme defined in the IEEE 802.11e Med...
Abstract The IEEE 802.11e standard has recently been rati-ed. This standard provides Quality-of-Ser...
Abstract. There have been many performance studies on the original IEEE 802.11 distributed coordinat...
IEEE 802.11e standard has been specified to support differentiated quality of service (QoS), one of ...
AbstractIEEE 802.11e standard has been specified to support differentiated quality of service (QoS),...
This technical report presents a comprehensive study of the Enhanced Distributed Control Access (EDC...
This paper proposes an analytical model for the throughput of the enhanced distributed channel acces...
IEEE 802.11e standard has been published to introduce quality of service (QoS) support to the conven...
Wireless information networks satisfy the users’ desirable requirements for mobility and relocation ...
This paper proposes an analytical model for the throughput of the Enhanced Distributed Channel Acces...
This paper proposes an analytical model for the throughput of the Enhanced Distributed Channel Acces...
The new standard IEEE 802.11e is specified to support quality-of-service in wireless local area netw...
Abstract: Problem statement: The IEEE 802.11e EDCA protocol with different access Categories (ACs) s...
Extensive research addressing IEEE 802.11e enhanced distributed channel access (EDCA) performance an...
Abstract—In this letter, we propose a three-dimensional Markov chain model for the 802.11e enhanced ...
Contention Free Burst (CFB) is a promising burst transmission scheme defined in the IEEE 802.11e Med...
Abstract The IEEE 802.11e standard has recently been rati-ed. This standard provides Quality-of-Ser...
Abstract. There have been many performance studies on the original IEEE 802.11 distributed coordinat...
IEEE 802.11e standard has been specified to support differentiated quality of service (QoS), one of ...
AbstractIEEE 802.11e standard has been specified to support differentiated quality of service (QoS),...
This technical report presents a comprehensive study of the Enhanced Distributed Control Access (EDC...
This paper proposes an analytical model for the throughput of the enhanced distributed channel acces...
IEEE 802.11e standard has been published to introduce quality of service (QoS) support to the conven...
Wireless information networks satisfy the users’ desirable requirements for mobility and relocation ...
This paper proposes an analytical model for the throughput of the Enhanced Distributed Channel Acces...
This paper proposes an analytical model for the throughput of the Enhanced Distributed Channel Acces...
The new standard IEEE 802.11e is specified to support quality-of-service in wireless local area netw...
Abstract: Problem statement: The IEEE 802.11e EDCA protocol with different access Categories (ACs) s...
Extensive research addressing IEEE 802.11e enhanced distributed channel access (EDCA) performance an...
Abstract—In this letter, we propose a three-dimensional Markov chain model for the 802.11e enhanced ...
Contention Free Burst (CFB) is a promising burst transmission scheme defined in the IEEE 802.11e Med...