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 the radio operating behavior. A CR ad-hoc network (CRAHN) should be able to coexist with primary user (PU) systems and other CR secondary systems without causing harmful interference to licensed PUs as well as dynamically configure autonomous and decentralized networks. Therefore, an intelligent system structure is required for efficient spectrum use. In this paper, we present a learning-based distributed autonomous CRAHN network system model for network planning, learning, and dynamic configuration. Based on the system model, we propose machine learning-based optimization algorithms for spectrum sensing, cluster-based ad-hoc network configuration, and context-aware signal classification. Using the sensing engine and the cognitive engine, the surrounding spectrum usage and the neighbor network operation status can be analyzed. The proposed policy engine can create network operation policies for the dynamically changing surrounding wireless environment, detect policy conflicts, and infer the optimal policy for the current situation. The decision engine finally determines and configures the optimal CRAHN configuration parameters through cooperation with a learning engine, in which we implement the proposed machine-learning algorithms. The simulation results show that the proposed machine-learning CRAHN algorithms can construct CR cluster networks that have a long network lifetime and high spectrum utility. Additionally, with high signal context recognition performance, we can ensure coexistence with neighboring systems.
Highlights
In recent years, as the demand for wireless communication services has increased rapidly, the problem of a shortage of frequency resources has greatly increased
For context awareness, using artificial intelligence machine-learning technologies, we can section, we propose an intelligent wireless CR ad-hoc network (CRAHN) system model based on artificial intellimore efficiently and accurately perform cognition of the current and future status, includgence
We presented an intelligent system model for distributed cognitive
Summary
As the demand for wireless communication services has increased rapidly, the problem of a shortage of frequency resources has greatly increased. For efficient use of limited frequency resources, a cognitive radio (CR) technology, which is a frequencysharing method achieved through dynamic spectrum access, has drawn attention. A CR network (CRN) is composed of unlicensed secondary users (SUs) and uses a spatially and temporally empty spectrum to avoid interference with licensed primary users (PUs) by sensing the surrounding wireless environment. The CRN should coexist with licensed users without causing harmful interference. It needs to dynamically set up a system configuration suitable for the wireless environment, and it should make an optimal decision for the current situation. A CRAHN can respond quickly to dynamic changes in surrounding wireless environments and is more scalable
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
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
