Robust Resource Allocation in NOMA based Cognitive Radio Networks

In this paper, we propose a novel robust resource allocation algorithm for downlink non-orthogonal multiple access (NOMA) cognitive radio networks with the underlay spectrum sharing mode. To characterize the effect of channel uncertainty, a robust energy efficiency (EE) maximization optimization problem is formulated under the constraints of the maximum interference temperature threshold of primary user, the maximum transmit power of secondary base station, and the outage probability of secondary user’s rate. The non-linear optimization problem is converted into a convex form by using a new parameter transformation. Moreover, the analytical solution of power allocation is obtained by using the Lagrange dual theory. The provided results demonstrate the proposed robust resource allocation scheme can always achieve better EE and outage performance than that of the traditional orthogonal multiple access scheme and the non-robust NOMA scheme.

[1]  Octavia A. Dobre,et al.  A Two-Phase Power Allocation Scheme for CRNs Employing NOMA , 2017, GLOBECOM 2017 - 2017 IEEE Global Communications Conference.

[2]  Mohamed Rihan,et al.  Two-Tier Power Allocation for Non-Orthogonal Multiple Access Based Cognitive Radio Networks , 2018, 2018 IEEE/ACS 15th International Conference on Computer Systems and Applications (AICCSA).

[3]  Haijian Sun,et al.  Robust Beamforming Design in a NOMA Cognitive Radio Network Relying on SWIPT , 2018, IEEE Journal on Selected Areas in Communications.

[4]  Fei Yuan,et al.  Multi-Objective Resource Allocation in a NOMA Cognitive Radio Network With a Practical Non-Linear Energy Harvesting Model , 2018, IEEE Access.

[5]  Lajos Hanzo,et al.  Robust Energy Efficiency Optimization for Amplify-and-Forward MIMO Relaying Systems , 2019, IEEE Transactions on Wireless Communications.

[6]  Ying-Chang Liang,et al.  Robust Power Control and Beamforming in Cognitive Radio Networks: A Survey , 2015, IEEE Communications Surveys & Tutorials.

[7]  Lajos Hanzo,et al.  A Survey of Non-Orthogonal Multiple Access for 5G , 2018, IEEE Communications Surveys & Tutorials.

[8]  Octavia A. Dobre,et al.  Power Allocation for Cognitive Radio Networks Employing Non-Orthogonal Multiple Access , 2016, 2016 IEEE Global Communications Conference (GLOBECOM).

[9]  Ping Wang,et al.  Max-Min Resource Allocation for Video Transmission in NOMA-Based Cognitive Wireless Networks , 2018, IEEE Transactions on Communications.

[10]  Jae Hong Lee,et al.  Outage Probability for Cooperative NOMA Systems With Imperfect SIC in Cognitive Radio Networks , 2019, IEEE Communications Letters.

[11]  Jian Yang,et al.  Security-Aware Resource Allocation With Delay Constraint for NOMA-Based Cognitive Radio Network , 2018, IEEE Transactions on Information Forensics and Security.

[12]  Qianbin Chen,et al.  Robust resource allocation for multi-tier cognitive heterogeneous networks , 2017, 2017 IEEE International Conference on Communications (ICC).

[13]  Shahid Mumtaz,et al.  A survey of 5G technologies: regulatory, standardization and industrial perspectives , 2017, Digit. Commun. Networks.

[14]  Xiaolei Yu,et al.  ROBUST ENERGY-EFFICIENT POWER ALLOCATION STRATEGY FOR ENERGY HARVESTING-AIDED HETEROGENEOUS CELLULAR NETWORKS , 2018, 2018 IEEE Global Conference on Signal and Information Processing (GlobalSIP).

[15]  Muhammad Imran,et al.  Non-Orthogonal Multiple Access (NOMA) for cellular future radio access , 2017 .

[16]  Mina Baghani,et al.  Rate optimization in NOMA cognitive radio networks , 2016, 2016 8th International Symposium on Telecommunications (IST).

[17]  Dawei Wang,et al.  Secure Energy Efficiency for NOMA Based Cognitive Radio Networks With Nonlinear Energy Harvesting , 2018, IEEE Access.

[18]  Geoffrey Ye Li,et al.  Cognitive radio networking and communications: an overview , 2011, IEEE Transactions on Vehicular Technology.

[19]  Xiaohui Zhao,et al.  Robust Probabilistic Distributed Power Control Algorithm for Underlay Cognitive Radio Networks under Channel Uncertainties , 2014, Wirel. Pers. Commun..

[20]  Wei Yu,et al.  An introduction to convex optimization for communications and signal processing , 2006, IEEE Journal on Selected Areas in Communications.