A Utility-Based Channel Ranking for Cognitive Radio Systems

TL;DR

This paper introduces a utility-based channel ranking method for cognitive radio systems that considers multiple parameters like SNR and occupancy, leading to more effective spectrum utilization.

Contribution

It proposes a novel channel ranking mechanism that incorporates both SNR and occupancy, improving over existing methods that only consider occupancy.

Findings

Enhanced channel ranking accuracy compared to occupancy-only methods

Investigation of mathematical functions for utility modeling

Improved spectrum utilization in cognitive radio systems

Abstract

Growing number of wireless devices and networks has increased the demand for the scarce resource, radio spectrum. Next generation communication technologies, such as Cognitive Radio provides a promising solution to efficiently utilize radio spectrum whilst delivering improved data communication rate, service, and security. A cognitive radio system will be able to sense the availability of radio frequencies, analyze the condition of the sensed channels, and decide the best option for optimal communication. To select the best option out of the overwhelming amount of information, a channel ranking mechanism can be employed. While several channel ranking techniques have been proposed, most of them only consider the occupancy rate of the sensed channels. However, there are other significantly important parameters that provide information on the condition of channels and should also be considered during the ranking process. This paper proposes a utility-based channel ranking mechanism that takes into account signal-to-noise ratio and the occupancy rate of the channels to determine their usefulness or preference. The paper at first discusses the need for channel ranking and the involved process. Then the suitability of different mathematical functions is investigated for utility modeling of the channel based on its SNR and occupancy. Finally, results are provided that show improved channel ranking compared to that of spectrum occupancy based ranking.