Influence of channel BER on IEEE 802.11 DCF

Boucouvalas, Anthony C.; Vitsas, V.

doi:10.1049/el:20031081

Cited by 82 publications

(93 citation statements)

References 1 publication

(4 reference statements)

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“…(15) and (17) into Eq. (18), becomes the following: (19) The error probability of transmitting an RTS frame is defined as the following: (20) The error probability of transmitting a CTS frame is defined as the following:…”

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confidence: 99%

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Linear Approximation Model Throughput Performance Analysis of IEEE 802.11 Distributed Coordinated Function in Wireless Lossy Channel

Abdulghani¹

2018

IJCA

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One source of performance degradation in wireless networks is the frame error that occurs because of nonideal channel conditions. Most previous works assume an ideal transmission channel (i.e., no error in transmission), whereas other works assume that the error is constant and exists only in data packets. These previous works do not consider transmission errors in control frames (i.e., RTS, CTS, and ACK). Therefore, this paper proposes an analytical approximation model to computes the saturation throughput, conditional collision probability, and packet transmission probability, of IEEE 802.11 distributed coordination function (DCF) in the presence of a determinate number of nodes (n) and a wireless noise channel condition. The transmission error that occurs in the data packets and control frames are considered for the computation of the saturation throughput. Furthermore, the effect of network size (n), maximum backoff stage (m), packet length, and minimum backoff window size (W) on the saturation throughput is investigated. The results indicate that the performance of IEEE 802.11 DCF strongly depends on number of nodes, packet length, and BER.

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Section: = (15)mentioning

confidence: 99%

“…A model that calculates the throughput, average packet delay, and packet drop probability has been proposed in [19], [20]. The authors considered the channel bit errors and packet retry limits of the basic access method and assumed that an error exists in the data frame.…”

Section: Introductionmentioning

confidence: 99%

Linear Approximation Model Throughput Performance Analysis of IEEE 802.11 Distributed Coordinated Function in Wireless Lossy Channel

Abdulghani¹

2018

IJCA

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“…To relax the dependence on the second assumption in (Bianchi, 2000), authors in (Chatzimisios, Boucouvalas et al, 2003) deal with the extension of Bianchi's Markov model in order to account for channel errors. And in (Qiao, Choi et al, 2002), the authors look at the impact of channel errors and the received SNR (Signal-to-Noise Ratio) on the achievable throughput in a system with rate adaptation, where the transmission rate of the terminal is adapted based on the link quality.…”

Section: Model-based Approachesmentioning

confidence: 99%

Available Bandwidth Estimation and Prediction in Ad hoc Networks

Zhao¹,

Wei²,

Wang³

et al. 2011

Mobile Ad-Hoc Networks: Protocol Design

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“…A number of papers [3]- [5], after the seminal work by Bianchi, have addressed the problem of modelling the DCF in a variety of traffic load and channel transmission conditions. Most of them focuses on a scenario presenting N saturated stations that transmit toward a common access point (AP) under the hypotheses that the packet rates along with the probability of transmission in a randomly chosen slot time is common to all the involved stations, while error events on the transmitted packets are mainly due to collisions between packets belonging to different stations.…”

Section: Introductionmentioning

confidence: 99%

Modelling and Analysis of the Distributed Coordination Function of IEEE 802.11 with Multirate Capability

Daneshgaran

Laddomada

Mesiti

et al. 2008

2008 IEEE Wireless Communications and Networking Conference

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Abstract-The aim of this paper is twofold. On one hand, it presents a multi-dimensional Markovian state transition model characterizing the behavior at the Medium Access Control (MAC) layer by including transmission states that account for packet transmission failures due to errors caused by propagation through the channel, along with a state characterizing the system when there are no packets to be transmitted in the queue of a station (to model non-saturated traffic conditions). On the other hand, it provides a throughput analysis of the IEEE 802.11 protocol at the data link layer in both saturated and non-saturated traffic conditions taking into account the impact of both transmission channel and multirate transmission in Rayleigh fading environment. Simulation results closely match the theoretical derivations confirming the effectiveness of the proposed model.

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Influence of channel BER on IEEE 802.11 DCF

Cited by 82 publications

References 1 publication

Linear Approximation Model Throughput Performance Analysis of IEEE 802.11 Distributed Coordinated Function in Wireless Lossy Channel

Linear Approximation Model Throughput Performance Analysis of IEEE 802.11 Distributed Coordinated Function in Wireless Lossy Channel

Available Bandwidth Estimation and Prediction in Ad hoc Networks

Modelling and Analysis of the Distributed Coordination Function of IEEE 802.11 with Multirate Capability

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