Abstract
Cognitive radio (CR) is one of the emerging technologies for 4G/5G applications. Cooperative relay communications and network coding are some techniques that helped in enhancing the CR applications. This paper considers a primary broadcasting system for multimedia video streaming applications that broadcasts data to the primary users and to an aiding cooperative relay CR secondary system. The cooperative overlay secondary system can use many error control coding techniques for point-to-point data retransmissions such as channel coding, network coding, and combined coding techniques to enhance the system performance under variable channel conditions. This work proposes a novel adaptive combined channel network coding (AC2NC) technique for data retransmissions. The new AC2NC first analyses the channel feedback information and then selects the best retransmission coding technique based on the targeted bandwidth or transmission time optimization. This is instead of using a single static channel or network coding technique with dynamic channel conditions. The proposed AC2NC improves the system throughput, decreases the retransmission time, and avails more spectrum access opportunities for the secondary system’s own data transmissions. The AC2NC relative bandwidth and time saving opportunities for CR users can exceed 90% under certain channel conditions versus some static coding techniques.
Highlights
Several error-control coding techniques can be used for reliable point-to-point data retransmissions under different channel conditions
We recommend the new adaptive combined channel network coding (AC2NC) model for cooperative CRN (CCRN) using cooperative secondary base station (SBS), which decides the optimal error control coding technique based on the dynamic channel conditions
We find the AC2NC optimal throughput ηAC2NC can be given by Equation (8):
Summary
Several error-control coding techniques can be used for reliable point-to-point data retransmissions under different channel conditions. Cognitive radio is proposed to be applied in conjunction network coding and cooperative relaying [18,19,20,21,22] for different broadcasting and multicasting purposes, such as 5G wireless applications This allows more users to access the spectrum, utilizes more bandwidth, and ensures more security. This paper evaluates the broadcasting throughput and transmission time of channel coding, network coding, and combined coding techniques for a primary system with a different number of PUs and a cooperative CR secondary system This broadcasting system is used for multimedia video streaming applications purposes via a centralized main primary base station (PBS) and a dedicated link to a secondary base station (SBS) cooperative relay near PUs to handle data retransmissions.
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