This article first presents several packet loss profiles collected during 802.11b multicast transmissions carried out under variable reception conditions (mobile and fixed receivers). Then, an original approach consisting in mapping a posteriori some error control mechanisms over these observations is presented. This approach allows to evaluate the performance of these mechanisms according to their parameters and various channel properties. It is shown in particular that relatively simple mechanisms based on retransmissions and/or error correcting codes of small length achieve very good performance in this context (92% of the best performance)
One of the challenges that video transmission over wireless networks (such as IEEE 802.11) must face...
In this paper, we analyze the errors observed at the link layer of an 802.11b network. Our analysis ...
In WLANs, stations sharing a common wireless channel are governed by IEEE 802.11 protocol. Many cons...
International audienceThis article presents an original method to validate the ef- ficiency of the s...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
In this paper we present a number of wireless measurements conducted on mobile phones usingWLAN IEEE...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
Abstract. Wireless Technologies have allowed a fast growing of the Internet service in both public a...
Wireless Technologies have allowed a fast growing of the Internet service in both public and private...
The multicast communication concept offers a scalable and efficient method for many classes of appli...
In group-oriented applications for wireless networks, reliable multicast strategies are important in...
Since the advent of the first IEEE 802.11 standard for WLANs, several papers have been presented tha...
The multicast communication concept offers a scalable and efficient method for many classes of appli...
While the concept of multicast communication offers a scalable and efficient method for many classes...
Wireless Video Multicast is prone to suffer from frequent packet losses, resulting from the fact tha...
One of the challenges that video transmission over wireless networks (such as IEEE 802.11) must face...
In this paper, we analyze the errors observed at the link layer of an 802.11b network. Our analysis ...
In WLANs, stations sharing a common wireless channel are governed by IEEE 802.11 protocol. Many cons...
International audienceThis article presents an original method to validate the ef- ficiency of the s...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
In this paper we present a number of wireless measurements conducted on mobile phones usingWLAN IEEE...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
Abstract. Wireless Technologies have allowed a fast growing of the Internet service in both public a...
Wireless Technologies have allowed a fast growing of the Internet service in both public and private...
The multicast communication concept offers a scalable and efficient method for many classes of appli...
In group-oriented applications for wireless networks, reliable multicast strategies are important in...
Since the advent of the first IEEE 802.11 standard for WLANs, several papers have been presented tha...
The multicast communication concept offers a scalable and efficient method for many classes of appli...
While the concept of multicast communication offers a scalable and efficient method for many classes...
Wireless Video Multicast is prone to suffer from frequent packet losses, resulting from the fact tha...
One of the challenges that video transmission over wireless networks (such as IEEE 802.11) must face...
In this paper, we analyze the errors observed at the link layer of an 802.11b network. Our analysis ...
In WLANs, stations sharing a common wireless channel are governed by IEEE 802.11 protocol. Many cons...