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SCIENCE CHINA Information Sciences, Volume 59 , Issue 8 : 082306(2016) https://doi.org/10.1007/s11432-015-0772-6

Achievable degrees of freedom of MIMO two-way X relay channel with delayed CSIT

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  • ReceivedNov 5, 2015
  • AcceptedJan 21, 2016
  • PublishedJun 7, 2016

Abstract


Funding

Regional Cooperation Project of MOST of China(2014DFT10290)


Acknowledgment

Acknowledgments

This work was supported by Regional Cooperation Project of MOST of China (Grant No. 2014DFT10290).


References

[1] Hossain E, Rasti M, Tabassum H, et al. Evolution toward 5G multi-tier cellular wireless networks: an interference management perspective. IEEE Wirel Commun, 2014, 21118-127 Google Scholar

[2] VanderMeulen E. Three-terminal communication channels. Adv Appl Prob, 1974, 3120-154 Google Scholar

[3] VanderMeulen E. A survey of multi-way channels in information theory: 1961--1976. IEEE Trans Inf Theory, 1977, 231-37 CrossRef Google Scholar

[4] Cover T, Gamal A. Capacity theorems for the relay channel. IEEE Trans Inf Theory, 1979, 25572-584 CrossRef Google Scholar

[5] Xing C W, Li S, Fei Z S, et al. How to understand linear minimum-mean-square-error transceiver design for multiple-input multiple-output systems from quadratic matrix programming. IET Commun, 2013, 71231-1242 CrossRef Google Scholar

[6] Xing C W, Ma S D, Fei Z S, et al. General robust linear transceiver design for multi-hop amplify-and-forward MIMO relaying systems. IEEE Trans Signal Proc, 2013, 611196-1209 CrossRef Google Scholar

[7] Jafar S A, Shamai S S. Degrees of freedom region of the MIMO x channel. IEEE Trans Inf Theory, 2008, 54151-170 CrossRef Google Scholar

[8] Maddah-Ali M, Motahari A, Khandani A. Communication over MIMO x channels: interference alignment, decomposition, and performance analysis. IEEE Trans Inf Theory, 2008, 543457-3470 CrossRef Google Scholar

[9] Zhang S L, Liew S C, Lam P P. Hot topic: physical-layer network coding. In: Proceedings of the 12th Annual International Conference on Mobile Computing and Networking. New York: ACM, 2006. 358--365. Google Scholar

[10] Xiang Z Z, Tao M X, Mo J H, et al. Degrees of freedom for MIMO two-way x relay channel. IEEE Trans Signal Proc, 2013, 611711-1720 CrossRef Google Scholar

[11] Maddah-Ali M, Tse D. Completely stale transmitter channel state information is still very useful. IEEE Trans Inf Theory, 2012, 584418-4431 CrossRef Google Scholar

[12] Maleki H, Jafar S A, Shamai S S. Retrospective interference alignment over interference networks. IEEE J Sel Topic Signal Proc, 2012, 6228-240 CrossRef Google Scholar

[13] Abdoli M, Ghasemi A, Khandani A. On the degrees of freedom of K-user SISO interference and x channels with delayed CSIT. IEEE Trans Inf Theory, 2013, 106542-6561 Google Scholar

[14] Vaze C, Varanasi M. The degrees of freedom region of the two-user MIMO broadcast channel with delayed CSIT. In: Proceedings of IEEE International Symposium on Information Theory (ISIT), Saint Petersburg, 2011. 199--203. Google Scholar

[15] Yi X P, Yang S, Gesbert D, et al. The degrees of freedom region of temporally correlated MIMO networks with delayed CSIT. IEEE Trans Inf Theory, 2014, 60494-514 CrossRef Google Scholar

[16] Abdoli M, Ghasemi A, Khandani A. On the degrees of freedom of three-user MIMO broadcast channel with delayed CSIT. In: Proceedings of IEEE International Symposium on Information Theory, Saint Petersburg, 2011. 209--213. Google Scholar

[17] Wang I H, Diggavi S. On degrees of freedom of layered two-unicast networks with delayed CSIT. In: Proceedings of IEEE International Symposium on Information Theory, Cambridge, 2012. 46--50. Google Scholar

[18] Tandon R, Mohajer S, Poor H, et al. On x channels with feedback and delayed CSI. In: Proceedings of IEEE International Symposium on Information Theory, Cambridge, 2012. 1877--1881. Google Scholar

[19] Li Q Y, Li H X, Wu G, et al. Achievable degrees of freedom of MIMO y channel with delayed CSIT. IEEE Commun Lett, 2014, 181583-1586 CrossRef Google Scholar

[20] Li Q Y, Li H X, Wu G, et al. Retrospective network coding alignment over K-user MIMO y channel. IEEE Commun Lett, 2016, 20502-505 CrossRef Google Scholar

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