The setting of the physical carrier sense is critical in wireless networks, since it often has to account for contrasting objectives like limiting the overall interference while ensuring high concurrency among wireless transmissions. This paper proposes an analytical approach for evaluating the impact of carrier sense setting on the throughput efficiency of wireless access networks. A time continuous Markov chain is used to describe the system, and to further gathering performance measures in terms of throughput and collision probability. Numerical results obtained through the model and further validated against simulations are used to derive qualitative dimensioning criteria for the carrier sense under different network conditions
This book chapter introduces the use of Continuous Time Markov Networks (CTMN) to analytically captu...
It is well known that the 802.11 standard specifies two ways to determine if the medium is busy: the...
The performance of medium access control (MAC) depends on both spatial locations and traffic pattern...
The setting of the physical carrier sense is critical in wireless networks, since it often has to ac...
We propose an analytical approach for evaluating the impact of physical carrier sensing in simple wi...
The IEEE 802.15.4 standard defines the medium access control (MAC) and physical layer for sensor net...
© Copyright 2005 IEEEIn this paper we investigate the performance of 802.11 carrier sense multiple a...
In this paper, we extend both Bianchi.s and Kumar.s models and characterize the channel activities g...
We investigate the problem of maximizing network capacity sustained by IEEE 802.11 DCF in multi-hop ...
Advances in low-power and low-cost sensor networks have led to solutions mature enough for use in a ...
In wireless networks, the system capacity can vary unpre-dictably with time, due to mobility of user...
Abstract—Due to a poor understanding of the interactions among transmitters, wireless multihop netwo...
Wireless networks equipped with the CSMA protocol are subject to collisions due to interference. For...
International audienceIn wired networks, systems are usually optimized to offer the maximum throughp...
Carrier sensing has been used as an effective way to reduce collisions and exploit spatial reuse in ...
This book chapter introduces the use of Continuous Time Markov Networks (CTMN) to analytically captu...
It is well known that the 802.11 standard specifies two ways to determine if the medium is busy: the...
The performance of medium access control (MAC) depends on both spatial locations and traffic pattern...
The setting of the physical carrier sense is critical in wireless networks, since it often has to ac...
We propose an analytical approach for evaluating the impact of physical carrier sensing in simple wi...
The IEEE 802.15.4 standard defines the medium access control (MAC) and physical layer for sensor net...
© Copyright 2005 IEEEIn this paper we investigate the performance of 802.11 carrier sense multiple a...
In this paper, we extend both Bianchi.s and Kumar.s models and characterize the channel activities g...
We investigate the problem of maximizing network capacity sustained by IEEE 802.11 DCF in multi-hop ...
Advances in low-power and low-cost sensor networks have led to solutions mature enough for use in a ...
In wireless networks, the system capacity can vary unpre-dictably with time, due to mobility of user...
Abstract—Due to a poor understanding of the interactions among transmitters, wireless multihop netwo...
Wireless networks equipped with the CSMA protocol are subject to collisions due to interference. For...
International audienceIn wired networks, systems are usually optimized to offer the maximum throughp...
Carrier sensing has been used as an effective way to reduce collisions and exploit spatial reuse in ...
This book chapter introduces the use of Continuous Time Markov Networks (CTMN) to analytically captu...
It is well known that the 802.11 standard specifies two ways to determine if the medium is busy: the...
The performance of medium access control (MAC) depends on both spatial locations and traffic pattern...