AbstractIn this paper, an analytic model is present for evaluating the MAC layer Collision Probability and mean delay at wireless nodes using the Distributed Coordination Function of IEEE 802.11 MAC Model. This model is valid for finite loads and can account for arbitrary arrival patterns, packet size distributions and number of nodes. Each node is modeled as a discrete time M/G/1 queue and impact of packet collisions, the resulting back-offs as well as the packet size distribution. We analyze this Model for different number of nodes in any network. The impact of arrival pattern on collision probability and delay is also analyzed
Abstract. In this paper, we present an analytic model for evaluating the queueing delays at nodes us...
To accurately estimate the service delay behavior of IEEE 802.11 networks, this paper comprehensivel...
Abstract — The MAC access delay in a saturated IEEE 802.11 DCF wireless LAN is analyzed. We develop ...
AbstractIn this paper, an analytic model is present for evaluating the MAC layer Collision Probabili...
Abstract — This paper presents an analytic model for evaluating the MAC layer queueing delays at wir...
Modeling of the IEEE 802.11 wireless LAN MAC protocol has received considerable research attention r...
During the past few years we have witnessed an ever-growing interest in wireless technologies and th...
Many models have been proposed to analyze the performance of the IEEE 802.11 distributed coordinatio...
In this paper, we present a performance study to evaluate the mean delay and the average system thro...
Abstract — IEEE 802.11 is the most important standard for wireless local area networks (WLANs). In I...
Recently, the IEEE has standardized the 802.11 protocol for Wireless Local Area Networks. The primar...
Recently, the use of wireless local area networls (WLANs) is extending rapidly as the IEEE 802.11 pr...
The full text of this article is not available on SOAR. WSU users can access the article via IEEE Xp...
In this paper we introduce an algorithm based analytical model to calculate the performance of the w...
Abstract: A model is proposed to analyze the MAC (medium access control) access delay of EDCA (enha...
Abstract. In this paper, we present an analytic model for evaluating the queueing delays at nodes us...
To accurately estimate the service delay behavior of IEEE 802.11 networks, this paper comprehensivel...
Abstract — The MAC access delay in a saturated IEEE 802.11 DCF wireless LAN is analyzed. We develop ...
AbstractIn this paper, an analytic model is present for evaluating the MAC layer Collision Probabili...
Abstract — This paper presents an analytic model for evaluating the MAC layer queueing delays at wir...
Modeling of the IEEE 802.11 wireless LAN MAC protocol has received considerable research attention r...
During the past few years we have witnessed an ever-growing interest in wireless technologies and th...
Many models have been proposed to analyze the performance of the IEEE 802.11 distributed coordinatio...
In this paper, we present a performance study to evaluate the mean delay and the average system thro...
Abstract — IEEE 802.11 is the most important standard for wireless local area networks (WLANs). In I...
Recently, the IEEE has standardized the 802.11 protocol for Wireless Local Area Networks. The primar...
Recently, the use of wireless local area networls (WLANs) is extending rapidly as the IEEE 802.11 pr...
The full text of this article is not available on SOAR. WSU users can access the article via IEEE Xp...
In this paper we introduce an algorithm based analytical model to calculate the performance of the w...
Abstract: A model is proposed to analyze the MAC (medium access control) access delay of EDCA (enha...
Abstract. In this paper, we present an analytic model for evaluating the queueing delays at nodes us...
To accurately estimate the service delay behavior of IEEE 802.11 networks, this paper comprehensivel...
Abstract — The MAC access delay in a saturated IEEE 802.11 DCF wireless LAN is analyzed. We develop ...