• DocumentCode
    1405812
  • Title

    SINR-maximizing spreading code allocation for non-linear serial interference cancellation

  • Author

    Buzzi, Stefano ; Saturnino, Daniela

  • Author_Institution
    DAEIMI, Univ. of Cassino, Cassino, Italy
  • Volume
    58
  • Issue
    2
  • fYear
    2010
  • fDate
    2/1/2010 12:00:00 AM
  • Firstpage
    631
  • Lastpage
    641
  • Abstract
    This paper considers the issue of spreading code allocation and receiver optimization in a CDMA-based multiuser data network. Assuming that non-linear serial interference cancellation is performed at the receiver, the problem of noncooperative SINR maximization with respect to each user´s spreading code and uplink receiver is first considered. It is shown that iterative SINR maximization converges in a finite number of steps, and that the equilibrium resulting from noncooperative behavior is also Pareto-optimal. Next, the problem of optimal multiuser detection for a system using the above optimal spreading codes is also considered, and it is shown that, for such a system, maximum likelihood detection entails a computational complexity that is exponential in the ratio between the number of users and the system processing gain, thus providing huge savings with respect to the general case wherein the optimal receiver has a complexity exponential in the number of users. While initially considering a simple frequencyflat synchronous CDMA system, the obtained results are then extended to more general scenarios, such as asynchronous CDMA systems, multipath CDMA channels, and multiuser multiantenna systems. Finally, the issue of non-cooperative power minimization and choice of the spreading code subject to a QoS constraints is also considered, and comparisons with the corresponding cooperative solution are also discussed. Numerical results corroborate the validity of the theoretical analysis, and show that the use of non-linear interference cancellation coupled with waveform adaptation brings remarkable performance gains with respect to linear multiuser receivers.
  • Keywords
    Pareto optimisation; code division multiple access; computational complexity; interference suppression; maximum likelihood detection; multiuser detection; quality of service; radio receivers; CDMA based multiuser data network; Pareto optimal; QoS constraints; SINR maximizing spreading code allocation; computational complexity; iterative SINR maximization; maximum likelihood detection; multipath CDMA channels; multiuser detection; multiuser multiantenna systems; nonlinear serial interference cancellation; receiver optimization; uplink receiver; Code division multiplexing; Computational complexity; Frequency; Interference cancellation; Interference constraints; Maximum likelihood detection; Multiaccess communication; Multiuser detection; Performance analysis; Signal to noise ratio; Overloaded systems, CDMA; power minimization, interference avoidance, spreading code allocation; serial interference cancellation, multiuser detection, game theory;
  • fLanguage
    English
  • Journal_Title
    Communications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0090-6778
  • Type

    jour

  • DOI
    10.1109/TCOMM.2010.02.080375
  • Filename
    5407628