Spectrum Efficient Resource Management for Multi-Carrier-Based NOMA Networks: A Graph-Based Method

Daosen Zhai; Jianbo Du

doi:10.1109/LWC.2017.2779485

Spectrum Efficient Resource Management for Multi-Carrier-Based NOMA Networks: A Graph-Based Method

Daosen Zhai, Jianbo Du

School of Electronics and Information

Xidian University

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

This letter investigates the spectrum efficient resource management problem (SERMP) for non-orthogonal multiple access-based uplink networks. Specifically, we take the decoding threshold of successive interference cancellation into account and formulate the SERMP as a sum-rate maximization problem by jointly considering the user pairing, channel assignment, and power control. For tackling this hard problem, we first analytically get the optimal transmit power for each user pair with given channel assignments. Afterward, we tactfully transform the primal problem into a maximum weighted independent set issue in graph theory, based on which we devise a low-complexity resource allocation algorithm. Finally, simulation results exhibit the performance improvement of our algorithm against other schemes in terms of data rate and number of supported users.

Original language	English
Pages (from-to)	388-391
Number of pages	4
Journal	IEEE Wireless Communications Letters
Volume	7
Issue number	3
DOIs	https://doi.org/10.1109/LWC.2017.2779485
State	Published - Jun 2018

Keywords

graph theory
maximum weight independent set
Non-orthogonal multiple access
resource allocation

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abstract = "This letter investigates the spectrum efficient resource management problem (SERMP) for non-orthogonal multiple access-based uplink networks. Specifically, we take the decoding threshold of successive interference cancellation into account and formulate the SERMP as a sum-rate maximization problem by jointly considering the user pairing, channel assignment, and power control. For tackling this hard problem, we first analytically get the optimal transmit power for each user pair with given channel assignments. Afterward, we tactfully transform the primal problem into a maximum weighted independent set issue in graph theory, based on which we devise a low-complexity resource allocation algorithm. Finally, simulation results exhibit the performance improvement of our algorithm against other schemes in terms of data rate and number of supported users.",

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N2 - This letter investigates the spectrum efficient resource management problem (SERMP) for non-orthogonal multiple access-based uplink networks. Specifically, we take the decoding threshold of successive interference cancellation into account and formulate the SERMP as a sum-rate maximization problem by jointly considering the user pairing, channel assignment, and power control. For tackling this hard problem, we first analytically get the optimal transmit power for each user pair with given channel assignments. Afterward, we tactfully transform the primal problem into a maximum weighted independent set issue in graph theory, based on which we devise a low-complexity resource allocation algorithm. Finally, simulation results exhibit the performance improvement of our algorithm against other schemes in terms of data rate and number of supported users.

AB - This letter investigates the spectrum efficient resource management problem (SERMP) for non-orthogonal multiple access-based uplink networks. Specifically, we take the decoding threshold of successive interference cancellation into account and formulate the SERMP as a sum-rate maximization problem by jointly considering the user pairing, channel assignment, and power control. For tackling this hard problem, we first analytically get the optimal transmit power for each user pair with given channel assignments. Afterward, we tactfully transform the primal problem into a maximum weighted independent set issue in graph theory, based on which we devise a low-complexity resource allocation algorithm. Finally, simulation results exhibit the performance improvement of our algorithm against other schemes in terms of data rate and number of supported users.

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Spectrum Efficient Resource Management for Multi-Carrier-Based NOMA Networks: A Graph-Based Method

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Keywords

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