Residential wireless networks have grown rapidly in the past decade. Meanwhile, dense deployments and autonomous managements of home Access Points (APs) greatly increase channel congestion levels and degrade the user experience. To address such problems, this paper proposes an architecture in residential environments called Wi-Fi Union (WU), where home APs can voluntarily join WU and become "member APs". WU helps member APs decrease their congestion levels by assigning channels in a coordinated manner with incentive considerations. First, we propose congestion level metric normalized airtime which can be passively and independently measured by member APs. Normalized airtime is further used to classify APs into heavily congested APs and ligh...
International audienceWith the centralized management paradigm offered by the recent IEEE 802.11 pro...
Abstract—We consider usage of campus wireless LANs (WLANs) consisting of access points (AP) with pot...
Campus and enterrprise wireless networks are increasingly characterized by ubiqitous coverage and ri...
As more bandwidth hogging applications like video streaming or video conferencing are entering the t...
Although 4G and 5G Radio Access Technologies(RATs) aim to usher in faster connectivity that is able ...
With the penetration of broadband Internet and Wi-Fi-capable electronic products to homes, there has...
\u3cp\u3eUbiquitous presence of umpteen WiFi access points (AP) in indoor locations leads to massive...
This article discusses a user-based channel assignment algorithm in a load-balanced IEEE 802.11 WLAN
Wi-Fi Access Points (APs) deployed publicly are facing serious demands due tothe proliferation in Wi...
Abstract-An algorithm to reduce congestion and balance users' load in IEEE 802.11b/g Wireless L...
Surprisingly little research has quantified the severity of Wi-Fi congestion in densely populated ar...
Given the ever increasing number of Wi-Fi devices in use by the public, the progressing urbanisation...
Wireless LAN using IEEE 802.11 networks are now widely deployed at home by residential users or in h...
The proliferation of overlapping, always-on IEEE 802.11 access points (APs) in urban areas, can caus...
Co-channel interference is the most significant degrader of quality of service in 802.11 Wi-Fi in de...
International audienceWith the centralized management paradigm offered by the recent IEEE 802.11 pro...
Abstract—We consider usage of campus wireless LANs (WLANs) consisting of access points (AP) with pot...
Campus and enterrprise wireless networks are increasingly characterized by ubiqitous coverage and ri...
As more bandwidth hogging applications like video streaming or video conferencing are entering the t...
Although 4G and 5G Radio Access Technologies(RATs) aim to usher in faster connectivity that is able ...
With the penetration of broadband Internet and Wi-Fi-capable electronic products to homes, there has...
\u3cp\u3eUbiquitous presence of umpteen WiFi access points (AP) in indoor locations leads to massive...
This article discusses a user-based channel assignment algorithm in a load-balanced IEEE 802.11 WLAN
Wi-Fi Access Points (APs) deployed publicly are facing serious demands due tothe proliferation in Wi...
Abstract-An algorithm to reduce congestion and balance users' load in IEEE 802.11b/g Wireless L...
Surprisingly little research has quantified the severity of Wi-Fi congestion in densely populated ar...
Given the ever increasing number of Wi-Fi devices in use by the public, the progressing urbanisation...
Wireless LAN using IEEE 802.11 networks are now widely deployed at home by residential users or in h...
The proliferation of overlapping, always-on IEEE 802.11 access points (APs) in urban areas, can caus...
Co-channel interference is the most significant degrader of quality of service in 802.11 Wi-Fi in de...
International audienceWith the centralized management paradigm offered by the recent IEEE 802.11 pro...
Abstract—We consider usage of campus wireless LANs (WLANs) consisting of access points (AP) with pot...
Campus and enterrprise wireless networks are increasingly characterized by ubiqitous coverage and ri...