• DocumentCode
    3277960
  • Title

    Uplink-Downlink SINR Duality via Lagrange Duality

  • Author

    Codreanu, M. ; Tölli, A. ; Juntti, M. ; Latva-aho, M.

  • Author_Institution
    Univ. of Oulu, Oulu
  • fYear
    2008
  • fDate
    March 31 2008-April 3 2008
  • Firstpage
    1160
  • Lastpage
    1165
  • Abstract
    The uplink-downlink SINR duality theorem is a key tool which simplify substantially the problem of joint design of the linear transmit and receive beamformers in multiple-input multiple-output (MIMO) downlink channels. The theorem has been proved previously under the assumption that the cross- coupling matrix between the users is primitive or, alternatively, by postulating the nonnegativity of the resolvent. By using the Lagrange duality theory, we first give an alternative proof which holds for arbitrary cross-coupling matrices. The proof does not only extend the result to a larger set of practical applications, but it also reveal more insight on the sum power minimization problem under a set of minimum SINR requirements for data streams. As a practical application, we apply the uplink-downlink SINR duality to derive a general method for MIMO downlink linear transceiver optimization according to different system performance criteria, including weighted sum rate maximization, weighted sum mean square error minimization, and minimum SINR maximization. The proposed method can handle multiple antennas at the BS and at the mobile user with single and/or multiple data streams per scheduled user. The numerical simulations show that the sum rate achieved by the sum rate maximization algorithm is within 0.5-1.5 bits/second/Hz close to the sum capacity. When compared to the traditional zero forcing based solutions, the proposed method provides more than 4 dB SNR gain and up to 3.5 bits/sec/Hz better spectral efficiency.
  • Keywords
    MIMO communication; duality (mathematics); matrix algebra; mean square error methods; minimisation; wireless channels; Lagrange duality theory; MIMO downlink linear transceiver optimization; cross-coupling matrix; data streams; linear transmit-receive beamformers; minimum SINR maximization; minimum SINR requirements; multiple-input multiple-output downlink channels; sum power minimization problem; uplink-downlink SINR duality; weighted sum mean square error minimization; weighted sum rate maximization; Downlink; Lagrangian functions; MIMO; Mean square error methods; Minimization methods; Mobile antennas; Optimization methods; Signal to noise ratio; System performance; Transceivers;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Wireless Communications and Networking Conference, 2008. WCNC 2008. IEEE
  • Conference_Location
    Las Vegas, NV
  • ISSN
    1525-3511
  • Print_ISBN
    978-1-4244-1997-5
  • Type

    conf

  • DOI
    10.1109/WCNC.2008.209
  • Filename
    4489240