Heidarpour, A. R.Ardakani, M.Tellambura, C.Uysal, Murat2023-06-082023-06-082022-121536-1276http://hdl.handle.net/10679/8364https://doi.org/10.1109/TWC.2022.3188729We study the performance of a network-coded cooperative (NCC) system in an underlay cognitive radio network (CRN). The primary network (PN) consists of a single transmitter-receiver pair, and the secondary network (SN) is an NCC system with $N$ users, $M$ relays, and a single destination. The relays employ decode-and-forward (DF) protocol and use network coding (NC). We study the performance of the SN under two types of power constraints: i) the combined peak interference power constraint on the PN and maximum transmit power constraint at the SN; and ii) the single peak interference power constraint on the PN. For the SN, an exact closed-form expression and an asymptotically tight end-to-end outage probability are derived, and the diversity order and coding gain are quantified. Compared to the existing literature, the proposed CRN NCC has four main distinguishable features: i) it applies to general CRN NCC network settings with an arbitrary number of users and relays; ii) it considers general relay selection mechanism and independent and non-identically distributed (i.n.i.d.) $Nakagami-m$ fading channels; iii) it assumes secondary-to-primary and primary-to-secondary interference links; and iv) it provides a generalization of previous work and includes existing results in the literature as special cases.enginfo:eu-repo/semantics/restrictedAccessArticle2112110111102300091379570006210.1109/TWC.2022.3188729Cognitive radio networksDiversity orderNakagami-m fadingNetwork-coded cooperationOutage probability2-s2.0-85134333736