Sliding-Window Superposition Coding: Two-User Interference Channels

@article{Wang2020SlidingWindowSC,
  title={Sliding-Window Superposition Coding: Two-User Interference Channels},
  author={Lele Wang and Y. Kim and Chiao-Yi Chen and H. Park and Eren Sasoglu},
  journal={IEEE Transactions on Information Theory},
  year={2020},
  volume={66},
  pages={3293-3316}
}
  • Lele Wang, Y. Kim, +2 authors Eren Sasoglu
  • Published 2020
  • Computer Science, Mathematics
  • IEEE Transactions on Information Theory
  • A low-complexity coding scheme is developed to achieve the rate region of maximum likelihood decoding for interference channels. As in the classical rate-splitting multiple access scheme by Grant, Urbanke, and Whiting, the proposed coding scheme uses superposition of multiple codewords with successive cancellation decoding, which can be implemented using standard point-to-point encoders and decoders. Unlike rate-splitting multiple access, which is not rate-optimal for multiple receivers, the… CONTINUE READING
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    References

    Publications referenced by this paper.
    SHOWING 1-10 OF 71 REFERENCES
    Sliding-window superposition coding for interference networks
    • 25
    • PDF
    Interference management via sliding-window superposition coding
    • 9
    • PDF
    Adaptive Sliding-Window Coded Modulation in Cellular Networks
    • 6
    • PDF
    A rate-splitting approach to the Gaussian multiple-access channel
    • 334
    • Highly Influential
    • PDF
    Rate-splitting in the presence of multiple receivers
    • 14
    • PDF
    On the Maximum Achievable Sum-Rate With Successive Decoding in Interference Channels
    • 33
    • PDF
    Channel Coding Techniques for Network Communication
    • 10
    Interference Networks With Point-to-Point Codes
    • 79
    • PDF
    Optimal Achievable Rates for Interference Networks With Random Codes
    • 42
    • PDF
    Universal codes for the Gaussian MAC via spatial coupling
    • 58
    • PDF