We introduce a super-modular game and then design an algorithm to converge to the Nash equilibrium (NE) point. Then, a greedy subchannel matching algorithm with ...

Abstract—In this paper, we consider a single cell downlink non-orthogonal multiple access (NOMA) network and aim at maximizing the energy efficiency.

A super-modular game was introduced, and an algorithm was designed to converge to the Nash equilibrium point for power allocation. ... ... A super-modular game ...

In this paper, we consider a single cell downlink non-orthogonal multiple access (NOMA) network and aim at maximizing the energy efficiency.

This paper considers a single cell downlink non-orthogonal multiple access (NOMA) network and aims at maximizing the energy efficiency, and provides an ...

In [14] , energy efficient NOMA network is designed for efficient resource allocation using game theory for optimal power assignment and user scheduling.

Simulation results endorse the effectiveness of the proposed algorithm and their performance gains in terms of EE compared to both NOMA and OFDMA variants.

Bibliographic details on Resource Allocation for Energy-Efficient NOMA Network Based on Super-Modular Game.

A super-modular game was introduced, and an algorithm was designed to converge to the Nash equilibrium point for power allocation. The proposed scheme achieved ...

In this paper, we consider a single cell downlink non-orthogonal multiple access (NOMA) network and aim at maximizing the energy efficiency.