Abstract
IEEE 802.11-based wireless local area network (WLAN) is currently the most popular communication system and a lot of access points (APs) have been densely deployed over heavily populated areas. In such dense WLAN environment, the WLAN users can suffer from performance degradation due to high co-channel and adjacent-channel interference among APs. To tackling such user performance degradation problem, we propose a two-phase radio resource management (RRM) framework, of which the first phase is channel assignment (CA) and the second phase is user association for channel load balancing (UA-ChLB). In designing the RRM framework, we take account of typical WLAN environment where dual bands are supported and two types of APs coexist: controlled-APs, which are managed by a centralized controller, and stand-alone APs, which independently operate for themselves. The proposed CA method utilizes a channel bonding technique, which provides a high data rate by integrating multiple basic channels while reducing the interference among neighboring APs. The proposed hybrid UA-ChLB scheme, which is composed of distributed/centralized UA-ChLB, efficiently coordinates the channel load among neighboring APs and between two bands of 2.4 and 5 GHz, under consideration of the wireless channel quality, interference, and traffic conditions. We implement a prototype system in practice using the proposed RRM scheme. The experimental results show that the proposed RRM scheme greatly improves both throughput and fairness in dense WLAN environment, as compared with some existing schemes.
Highlights
Nowadays, IEEE 802.11-based wireless local area network (WLAN) technologies have been widely used, since these technologies effectively support various services being attractive to users, such as general multimedia, full HD video streaming, and file download, and so on
We suggest a design framework for channel assignment (CA) and user association (UA)-load balancing (LB), in the dense WLAN environment where two types of access points (APs) (i.e., S-APs and C-APs) coexist and each of WLAN devices (i.e., S-APs, C-APs, and STAs) supports dual-band of 2.4 GHz and 5 GHz by using two wireless network interfaces
USER ASSOCIATION FOR BALANCING LOAD ON CHANNELS The controller periodically performs the user association for channel load balancing (UA-ChLB) work, based on various status information reported from all nonlegacy STA (NL-STA) and C-APs
Summary
IEEE 802.11-based wireless local area network (WLAN) technologies have been widely used, since these technologies effectively support various services being attractive to users, such as general multimedia, full HD video streaming, and file download, and so on. The UA scheme in [16] distributes the load among APs to maximize the overall network throughput To solve this UA problem in the dense WLAN environment, FIGURE 1. Each AP, irrespective of its type (i.e., C-AP or S-AP), broadcasts the following status information for each of two bands, through beacon frames: the number of associated STAs, the channel load, and average spectral efficiency. This information is used to realize the proposed scheme and is calculated as follows. We give a short overview of each RRM phase
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call