• DocumentCode
    1458340
  • Title

    Multiaccess fading channels. I. Polymatroid structure, optimal resource allocation and throughput capacities

  • Author

    Tse, David N C ; Hanly, Stephen V.

  • Author_Institution
    Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
  • Volume
    44
  • Issue
    7
  • fYear
    1998
  • fDate
    11/1/1998 12:00:00 AM
  • Firstpage
    2796
  • Lastpage
    2815
  • Abstract
    In multiaccess wireless systems, dynamic allocation of resources such as transmit power, bandwidths, and rates is an important means to deal with the time-varying nature of the environment. We consider the problem of optimal resource allocation from an information-theoretic point of view. We focus on the multiaccess fading channel with Gaussian noise, and define two notions of capacity depending on whether the traffic is delay-sensitive or not. We characterize the throughput capacity region which contains the long-term achievable rates through the time-varying channel. We show that each point on the boundary of the region can be achieved by successive decoding. Moreover, the optimal rate and power allocations in each fading state can be explicitly obtained in a greedy manner. The solution can be viewed as the generalization of the water-filling construction for single-user channels to multiaccess channels with arbitrary number of users, and exploits the underlying polymatroid structure of the capacity region
  • Keywords
    Gaussian noise; channel capacity; channel coding; decoding; fading channels; land mobile radio; multi-access systems; multiuser channels; time-varying channels; Gaussian noise; bandwidth; generalization; multiaccess fading channels; multiaccess wireless systems; optimal rate; optimal resource allocation; polymatroid structure; power allocation; successive decoding; throughput capacities; throughput capacity; time-varying channel; transmit power; water-filling construction; Bandwidth; Base stations; Delay; Fading; Gaussian noise; Multiaccess communication; Resource management; Throughput; Time-varying channels; Transmitters;
  • fLanguage
    English
  • Journal_Title
    Information Theory, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9448
  • Type

    jour

  • DOI
    10.1109/18.737513
  • Filename
    737513