mca 23(3): e4

Research Article

Deep Non-Orthogonal Multiple Access Network Assisted by Intelligent Reflecting Surface

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  • @ARTICLE{10.4108/eetmca.v7i3.2750,
        author={Dahua Ouyang and Pingzhi Shangguan and Xinyong Huangfu and Zenggang Linghu and Haiyang Zhuge and Haoliang Situ and Shangwu Sima and Junning Shentu and Yuanrui Xiahou and Zhengtao Helan and Zhaoyao Dongfang and Kunlun Dongfang and Zhengzhi Wanyan and Qingrong Murong and Hanming Yuchi and Zhongchun Zhangsun and Bingyun Helan and Haida Xiahou and Yifan Shentu and Weiye Sima and Zhengfeng Situ and Fengqi Zhuge and Jiayi Linghu and Zhili Huangpu and Weiyi Shangguan and Shanshan Ouyang and Xiatian Ouyang and Zhimo Shangguan and Dechang Huangpu and Bozhong Linghu and Houjue Zhuge and Yunfei Situ and Bobo Sima and Zelong Shentu and Kunlun Xiahou and Zhaohui Helan and Siyu Wanyan and Desheng Murong and Yingxiong Yunchi and Baoqiang Zhangsun and Jinshang Dongfang and Xiazhi Lai and Yinghao Guo and Bowen Lu},
        title={Deep Non-Orthogonal Multiple Access Network Assisted by Intelligent Reflecting Surface},
        journal={EAI Endorsed Transactions on Mobile Communications and Applications},
        keywords={IRS, NOMA, B5G},
  • Dahua Ouyang
    Pingzhi Shangguan
    Xinyong Huangfu
    Zenggang Linghu
    Haiyang Zhuge
    Haoliang Situ
    Shangwu Sima
    Junning Shentu
    Yuanrui Xiahou
    Zhengtao Helan
    Zhaoyao Dongfang
    Kunlun Dongfang
    Zhengzhi Wanyan
    Qingrong Murong
    Hanming Yuchi
    Zhongchun Zhangsun
    Bingyun Helan
    Haida Xiahou
    Yifan Shentu
    Weiye Sima
    Zhengfeng Situ
    Fengqi Zhuge
    Jiayi Linghu
    Zhili Huangpu
    Weiyi Shangguan
    Shanshan Ouyang
    Xiatian Ouyang
    Zhimo Shangguan
    Dechang Huangpu
    Bozhong Linghu
    Houjue Zhuge
    Yunfei Situ
    Bobo Sima
    Zelong Shentu
    Kunlun Xiahou
    Zhaohui Helan
    Siyu Wanyan
    Desheng Murong
    Yingxiong Yunchi
    Baoqiang Zhangsun
    Jinshang Dongfang
    Xiazhi Lai
    Yinghao Guo
    Bowen Lu
    Year: 2023
    Deep Non-Orthogonal Multiple Access Network Assisted by Intelligent Reflecting Surface
    DOI: 10.4108/eetmca.v7i3.2750
Dahua Ouyang1,*, Pingzhi Shangguan1, Xinyong Huangfu1, Zenggang Linghu1, Haiyang Zhuge2, Haoliang Situ2, Shangwu Sima2, Junning Shentu2, Yuanrui Xiahou3, Zhengtao Helan3, Zhaoyao Dongfang3, Kunlun Dongfang3, Zhengzhi Wanyan4, Qingrong Murong4, Hanming Yuchi4, Zhongchun Zhangsun4, Bingyun Helan5, Haida Xiahou5, Yifan Shentu5, Weiye Sima5, Zhengfeng Situ6, Fengqi Zhuge6, Jiayi Linghu6, Zhili Huangpu6, Weiyi Shangguan7, Shanshan Ouyang7, Xiatian Ouyang7, Zhimo Shangguan7, Dechang Huangpu8, Bozhong Linghu8, Houjue Zhuge8, Yunfei Situ8, Bobo Sima9, Zelong Shentu9, Kunlun Xiahou9, Zhaohui Helan9, Siyu Wanyan9, Desheng Murong10, Yingxiong Yunchi10, Baoqiang Zhangsun10, Jinshang Dongfang10, Xiazhi Lai10, Yinghao Guo10, Bowen Lu11
  • 1: Hainan Normal University
  • 2: Dalian Jiaotong University
  • 3: Southwest Forestry University
  • 4: Yanbian University
  • 5: Jishou University
  • 6: Yunnan Normal University
  • 7: Shanghai Maritime University
  • 8: Jiangsu Normal University
  • 9: Hubei University of Technology
  • 10: Chengdu University of Technology
  • 11: Shantou University
*Contact email:


The intelligent reflecting surface (IRS) assisted non-orthogonal multiple access (NOMA) symbiotic communication technology is expected to enhance the access performance, energy efficiency and spectrum efficiency of the communication network, and is regarded as an important candidate technology to support the evolution of the sixth-generation (6G) towards large-scale, high-capacity and sustainable development. However, the relevant research of this technology is still at the initial stage, and many key challenges have not been fully studied. Therefore, it is urgent to open up relevant research ideas and methods to promote its development and early implementation, so as to make it an effective 6G technology. In view of this, this paper intends to carry out the research on the theory and method of IRS assisted NOMA symbiotic transmission, starting from the analysis of the active and passive symbiotic mechanism of NOMA transmission protocol. Based on this, we further study the efficient symbiotic modulation transmission technology and multi-dimensional resource optimization allocation method. The research content of this paper is to explore the transmission theory and technology of high energy efficiency and high frequency spectrum efficiency for 6G, and break through the bottleneck problem of spectrum and energy consumption encountered by wireless communication, which has important practical significance for the wireless communication.