Licensed
white space channels can now be used opportunistically by unlicensed users
provided the channels are relinquished when needed by the primary users. In
order to maximize their potential, these channels need to be assigned to the
secondary users in an efficient manner. The protocols to enable such an
assignment need to simultaneously aim for fairness, high throughput, low
overhead, and low rate of channel reconfigurations. One way of channel
assignment is to allow neighboring access points (APs) to operate on the same
channel. However, if not done properly, this may increase the number of
collisions resulting in lower throughput. In this paper, we present a new
channel assignment algorithm that performs controlled channel sharing among
neighboring APs that increases not only the fairness but also the total
throughput of the APs. Controlled sharing and assignment of channels leads to a
new problem that we call as the Shared Coloring Problem. We design a protocol
based on a centralized algorithm, called Share, and its localized version, l
Share that work together to meet the objectives. The algorithm has tight bounds
on fairness and it provides high system throughput. We also show how the 802.22
MAC layer protocol for wireless regional area networks (WRANs) can be modified
considering the typical case of low degree of interference resulting from the
operations of Share and lShare. Results from extensive ns-3 simulations based
on data traces show that our protocol increases the minimum throughput among
all APs by at least 58 percent when compared to the baseline algorithms.
No comments:
Post a Comment