Although a variety of rate adaptation algorithms have been proposed for 802.11 devices, sampling-based algorithms are preferred and used in practice because they only require frame loss information which is available on all devices. Unfortunately, sampling can impose significant overheads because it can lead to excessive frame loss or the choice of suboptimal rates. In this thesis, we design a novel neural network based rate adaptation algorithm, called NeuRA. NeuRA significantly improves the efficiency of sampling in rate adaptation algorithms by using a neural network model to predict the expected throughput of many rates, rather than sampling their throughput. Furthermore, we propose a feature selection technique to select the best set o...
Abstract—Rate adaptation algorithms play a crucial role in IEEE 802.11 WLANs. While the network perf...
When a Wi-Fi device tries to connect to access points, it picks a channel, rate, and a particular ac...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
International audienceWith the rise of the complexity of the IEEE 802.11 standard, rate adaptation a...
IEEE 802.11 is a predominant technology in wireless networks. Though designed to extend local area n...
Recent years have seen a staggering increase in the deployment and utilization of wireless networks....
The current generation of IEEE 802.11 Wireless Local Area Networks (WLANs) provide multiple data rat...
IEEE 802.11 technology provides a low-cost wireless networking solution. In the last few years, we h...
In recent years, IEEE 802.11 wireless networks have become the most popular wireless technology. IEE...
National audienceIn this article, we describe and analyze the rate adaptation algorithm used by rece...
The transition from wired to wireless networks have opened up new horizons forresearch. IEEE 802.11 ...
A key problem with IEEE 802.11 technology is adaptation of the transmission rates to the changing ch...
Wireless Local Area Networks (WLANs) are nowadays the most widely used indoor wireless networks that...
This thesis provides a tool for helping wireless network professionals to recognize different Rate A...
In this paper we use real experiments to study MIMO 802.11n Rate Adaptation (RA) on a programmable A...
Abstract—Rate adaptation algorithms play a crucial role in IEEE 802.11 WLANs. While the network perf...
When a Wi-Fi device tries to connect to access points, it picks a channel, rate, and a particular ac...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...
International audienceWith the rise of the complexity of the IEEE 802.11 standard, rate adaptation a...
IEEE 802.11 is a predominant technology in wireless networks. Though designed to extend local area n...
Recent years have seen a staggering increase in the deployment and utilization of wireless networks....
The current generation of IEEE 802.11 Wireless Local Area Networks (WLANs) provide multiple data rat...
IEEE 802.11 technology provides a low-cost wireless networking solution. In the last few years, we h...
In recent years, IEEE 802.11 wireless networks have become the most popular wireless technology. IEE...
National audienceIn this article, we describe and analyze the rate adaptation algorithm used by rece...
The transition from wired to wireless networks have opened up new horizons forresearch. IEEE 802.11 ...
A key problem with IEEE 802.11 technology is adaptation of the transmission rates to the changing ch...
Wireless Local Area Networks (WLANs) are nowadays the most widely used indoor wireless networks that...
This thesis provides a tool for helping wireless network professionals to recognize different Rate A...
In this paper we use real experiments to study MIMO 802.11n Rate Adaptation (RA) on a programmable A...
Abstract—Rate adaptation algorithms play a crucial role in IEEE 802.11 WLANs. While the network perf...
When a Wi-Fi device tries to connect to access points, it picks a channel, rate, and a particular ac...
Over half of the transmission time in WiFi networks is dedicated to ensuring that errors are correct...