This paper presents the empirical results and analysis of a link variability study for an indoor, stationary 802.11 network subject to external interference. The objective is to characterize the relationships between the packet loss rate on a link and the transmitter-receiver distance, the SNR as reported by the 802.11 card, and time. Experimental results confirm that distance is not predictive of link reliability. Furthermore, attempting to estimate the packet loss rate by counting missing packets can lead to large estimation errors and latency for estimation parameters of practical interest. We find, however, that the SNR measurements reported by today's 802.11 cards can, under certain circumstances, be reliably predictive of the packet l...
802.11n has made a quantum leap over legacy 802.11 systems by supporting extremely higher transmissi...
Since wireless signals propagate through the ether, they are significantly affected by attenuation, ...
802.11n has made a quantum leap over legacy 802.11 systems by supporting extremely higher transmissi...
This paper investigates methods for link quality measurement of an indoor, time-varying wireless lin...
This paper presents the experimental results and analysis of a link variability study for an indoor,...
Abstract—The awareness of channel conditions is critical to routing and MAC protocols. But, it is ch...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
This paper describes an unexpected nding concerning link quality measurements carried out through br...
This paper reports the technique devised to evaluate fluctuations in the main parameters for a wirel...
Wireless 802.11 links operate in unlicensed spectrum and so must accommodate other unlicensed trans...
This paper analyzes the causes of packet loss in a 38-node urban multi-hop 802.11b network. The patt...
Modeling and prediction of Packet Loss Rate (PLR) of wireless links using hardware information is es...
This paper reports the technique devised to evaluate fluctuations in the main parameters for a wirel...
The wireless range of an IEEE 802.11b/g system as predicted by an empirical model for path loss and ...
802.11n has made a quantum leap over legacy 802.11 systems by supporting extremely higher transmissi...
Since wireless signals propagate through the ether, they are significantly affected by attenuation, ...
802.11n has made a quantum leap over legacy 802.11 systems by supporting extremely higher transmissi...
This paper investigates methods for link quality measurement of an indoor, time-varying wireless lin...
This paper presents the experimental results and analysis of a link variability study for an indoor,...
Abstract—The awareness of channel conditions is critical to routing and MAC protocols. But, it is ch...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
This paper describes an unexpected nding concerning link quality measurements carried out through br...
This paper reports the technique devised to evaluate fluctuations in the main parameters for a wirel...
Wireless 802.11 links operate in unlicensed spectrum and so must accommodate other unlicensed trans...
This paper analyzes the causes of packet loss in a 38-node urban multi-hop 802.11b network. The patt...
Modeling and prediction of Packet Loss Rate (PLR) of wireless links using hardware information is es...
This paper reports the technique devised to evaluate fluctuations in the main parameters for a wirel...
The wireless range of an IEEE 802.11b/g system as predicted by an empirical model for path loss and ...
802.11n has made a quantum leap over legacy 802.11 systems by supporting extremely higher transmissi...
Since wireless signals propagate through the ether, they are significantly affected by attenuation, ...
802.11n has made a quantum leap over legacy 802.11 systems by supporting extremely higher transmissi...