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Volume 45 Issue 2
Feb.  2023
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SHUAI Haifeng, GUO Kefeng, AN Kang, ZHU Shibing, LI Changqing. On the Performance of Non-Orthogonal Multiple Access Integrated Satellite-Terrestrial Networks in Imperfect Constraints[J]. Journal of Electronics & Information Technology, 2023, 45(2): 427-435. doi: 10.11999/JEIT220377
Citation: SHUAI Haifeng, GUO Kefeng, AN Kang, ZHU Shibing, LI Changqing. On the Performance of Non-Orthogonal Multiple Access Integrated Satellite-Terrestrial Networks in Imperfect Constraints[J]. Journal of Electronics & Information Technology, 2023, 45(2): 427-435. doi: 10.11999/JEIT220377

On the Performance of Non-Orthogonal Multiple Access Integrated Satellite-Terrestrial Networks in Imperfect Constraints

doi: 10.11999/JEIT220377
Funds:  The National Natural Science Foundation of China (61901502,62001517), The National Postdoctoral Program for Innovative Talents (BX20200101), The Project of Space Engineering University (2020XXAQ01,2019XXAQ05)
  • Received Date: 2022-04-01
  • Rev Recd Date: 2022-07-22
  • Available Online: 2022-07-29
  • Publish Date: 2023-02-07
  • With the rapid development of Integrated Satellite-Terrestrial Networks (ISTNs), large scale sensors and wireless devices have the demand to access the wireless services, which is a new challenge to the spectrum efficiency and quality of service of ISTNs. Different from the conventional orthogonal multiple access technology, Non-Orthogonal Multiple Access (NOMA) can provide communication guarantee for multiple users in the same frequency. It is considered to be an effective technical path to improve the spectral efficiency of ISTNs, hence it has been widely studied. At present, most of the research on NOMA and ISTNs are investigated under perfect condition. Motivated by this condition, the performance of ISTNs with the more practical situation, i.e., imperfect Successive Interference Cancellation (SIC), channel estimation error and co-channel interference, is studied in this paper. Considering that both satellite and terrestrial users use multiple antennas, the closed-form expression of ergodic capacity is derived, which verifies the impact of imperfect conditions on the system performance. Meanwhile, Monte Carlo simulation is performed to verify the correctness of theoretical derivation results.
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