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NOMA-enabled Optimization Framework for Next-generation Small-cell IoV Networks under Imperfect SIC Decoding

Wali Ullah Khan, Xingwang Li, Asim Ihsan, Mohammad Ayoub Khan, Varun G. Menon, Manzoor Ahmed

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Abstract

To meet the demands of massive connections, diverse quality of services (QoS), ultra-reliable and low latency in the future sixth-generation (6G) Internet-of-vehicle (IoV) communications, we propose non-orthogonal multiple access (NOMA)-enabled small-cell IoV network (SVNet). We aim to investigate the trade-off between system capacity and energy efficiency through a joint power optimization framework. In particular, we formulate a nonlinear multi-objective optimization problem under imperfect successive interference cancellation (SIC) detecting. Thus, the objective is to simultaneously maximize the sum-capacity and minimize the total transmit power of NOMA-enabled SVNet subject to individual IoV QoS, maximum transmit power and efficient signal detecting. To solve the nonlinear problem, we first exploit a weighted-sum method to handle the multi-objective optimization and then adopt a new iterative Sequential Quadratic Programming (SQP)-based approach to obtain the optimal solution. The proposed optimization framework is compared with Karush-Kuhn-Tucker (KKT)-based NOMA framework, average power NOMA framework, and conventional OMA framework. Monte Carlo simulation results unveil the validness of our derivations.

Topics & Concepts

Karush–Kuhn–Tucker conditionsComputer scienceMathematical optimizationTransmitter power outputQuality of serviceOptimization problemNonlinear programmingSequential quadratic programmingSingle antenna interference cancellationExploitDecoding methodsNonlinear systemQuadratic programmingDistributed computingComputer networkAlgorithmMathematicsPhysicsChannel (broadcasting)Quantum mechanicsTransmitterComputer securityAdvanced Wireless Communication TechnologiesSatellite Communication SystemsIoT Networks and Protocols