Abstract
Cognitive radio (CR) is an adaptive radio technology that can automatically detect available channels in a wireless spectrum and change transmission parameters to improve radio operating behavior. Due to the dynamic nature of spectrum availability and wireless channel condition, it is very hard to maintain reliable network connectivity. Cluster-based CR ad-hoc networks (CRAHN) arrange CR nodes into groups to effectively maintain reliable autonomous networks. Clustering in CRAHN supports cooperative tasks such as spectrum sensing and channel managements and achieves network scalability and stability. In this paper, we proposed a Q-learning based cluster formation approach in CRAHN, in which Q-value is used to evaluate each node’s channel quality. To form a distributed cluster network, channel quality, residual energy and neighbor node/network conditions are considered. By exchanging each node’s status information in terms of channels and neighbors, each node knows neighboring topology and which node is the best candidate for cluster head (CH). Distributed CH selection, the optimum common active data channel decision, and gateway node selection procedures are presented in this paper. The proposed mechanism can extend the network lifetime, enhance the reachability not only between member nodes but also with other cluster networks, it can also provide stable and reliable service using the selected data channel and avoid possible interference between neighboring ad-hoc clusters.
Highlights
The term cognition has come from a Latin phrase cognoscere, means getting to know, or knowledge
IEEE has a standard for Cognitive radio (CR) networks, IEEE 802.22, designed for a centralized network where CR devices use the white space of TV frequency bands
We propose a Q-learning based cluster formation method for distributed CR ad-hoc networks (CRAHN)
Summary
The term cognition has come from a Latin phrase cognoscere, means getting to know, or knowledge. Cognitive radio (CR) has been the propitious field for future generation wireless communication. In the cognitive radio system, the secondary users (SUs) can explore and exploit any licensed spectrum which is owned by primary users (PUs) without causing any harmful interference to the PUs. In the era of excessive demand for wireless communication, with the scarcity of licensed spectrum, CR is the promising choice to expand the communication systems and provides the proper utilization of spectrum. With the limitation of licensed spectrum, the Federal Communications Commission (FCC) has endorsed the licensed bands available for the unlicensed devices when it’s free [1]. IEEE has a standard for CR networks, IEEE 802.22, designed for a centralized network where CR devices use the white space of TV frequency bands. In CR networks, SUs sense the spectrum
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