© 1967-2012 IEEE. The Access Points (APs) in a Wireless Local Area Network (WLAN) must be assigned one or more channels to meet traffic demands from users. To date, prior works on channel assignment assume APs have a fixed traffic demand, meaning they do not consider or adapt to spatio-temporal changes in traffic demands. To this end, we leverage Deep Reinforcement Learning (DRL), where we equip APs with a DRL-based channel assignment solution, to maximize the average number of slots in which an AP has sufficient bandwidth to meet user demands. Our APs learn from their historical traffic loads and assign themselves partially overlapping channels with minimal interference. Simulation results show that our DRL solution leads to APs satisfying...
International audienceThe ever-growing popularity of WLANs has lead to a numerous and highly diverse...
Deep Learning techniques are expected to play a key role in the development of wireless systems at t...
Wireless local area networks (WLANs) are the most popular kind of wireless Internet connection becau...
For densely deployed wireless local area networks (WLANs), this paper proposes a deep reinforcement ...
Future green WiFi networks will require Access Points (APs) to minimize their energy usage and maxim...
While dynamic channel bonding (DCB) is proven to boost the capacity of wireless local area networks ...
Spectrum allocation in the form of primary channel and bandwidth selection is a key factor for dynam...
Network slicing, a key enabler for future wireless networks, divides a physical network into multipl...
Congestion in dense traf c networks is a prominent obstacle towards realizing the performance requi...
WiFi densification leads to the existence of multiple overlapping coverage areas, which allows user ...
Enterprise Wireless Local Area Networks (WLANs) consist of multiple Access Points (APs) covering a g...
The nodes, e.g., access points and clients, in current WiFi networks rely on carrier sense multiple ...
Enhanced licensed-assisted access (eLAA) is an operational mode that allows the use of unlicensed ba...
Campus and enterrprise wireless networks are increasingly characterized by ubiqitous coverage and ri...
Link adaptation (LA) matches transmission parameters to conditions on the radio link, and therefore ...
International audienceThe ever-growing popularity of WLANs has lead to a numerous and highly diverse...
Deep Learning techniques are expected to play a key role in the development of wireless systems at t...
Wireless local area networks (WLANs) are the most popular kind of wireless Internet connection becau...
For densely deployed wireless local area networks (WLANs), this paper proposes a deep reinforcement ...
Future green WiFi networks will require Access Points (APs) to minimize their energy usage and maxim...
While dynamic channel bonding (DCB) is proven to boost the capacity of wireless local area networks ...
Spectrum allocation in the form of primary channel and bandwidth selection is a key factor for dynam...
Network slicing, a key enabler for future wireless networks, divides a physical network into multipl...
Congestion in dense traf c networks is a prominent obstacle towards realizing the performance requi...
WiFi densification leads to the existence of multiple overlapping coverage areas, which allows user ...
Enterprise Wireless Local Area Networks (WLANs) consist of multiple Access Points (APs) covering a g...
The nodes, e.g., access points and clients, in current WiFi networks rely on carrier sense multiple ...
Enhanced licensed-assisted access (eLAA) is an operational mode that allows the use of unlicensed ba...
Campus and enterrprise wireless networks are increasingly characterized by ubiqitous coverage and ri...
Link adaptation (LA) matches transmission parameters to conditions on the radio link, and therefore ...
International audienceThe ever-growing popularity of WLANs has lead to a numerous and highly diverse...
Deep Learning techniques are expected to play a key role in the development of wireless systems at t...
Wireless local area networks (WLANs) are the most popular kind of wireless Internet connection becau...