• DocumentCode
    266531
  • Title

    Energy-efficient delay-tolerant communication: Revisiting optimality of superposition coding in broadcast channels

  • Author

    Muryong Kim ; Viswanathan, Harish

  • Author_Institution
    Univ. of Texas at Austin, Austin, TX, USA
  • fYear
    2014
  • fDate
    8-12 Dec. 2014
  • Firstpage
    3526
  • Lastpage
    3531
  • Abstract
    Communication can consume a significant fraction of the energy for many simple sensor devices for which battery life is an important consideration in deployment. Battery power is consumed not only by transmit power amplifier but also in the radio frequency circuits and digital processors during transmission and reception. When communication requirements are bursty, many devices incorporate a `sleep´ state where the circuit power consumption is also reduced by turning circuits off. Delaying transmission can allow devices to sleep more and conserve energy. We consider the optimal tradeoff between receiver energy consumption and average throughput, and derive insights on multi-user downlink communication. We reformulate the problem with generalized power constraints on the transmitter´s and the receiver´s power consumption: depending on their states, either transmit/receive or sleep, they consume different amounts of power. We show how these changes of power constraints affect average spectral efficiency. In Gaussian broadcast channels, taking into account the receivers´ power constraints, we show that multi-user transmission schemes, previously proven to be optimal for maximizing spectral efficiency, such as superposition coding and dirty paper coding (DPC) are not always optimal. We characterize the condition, under which these schemes remain optimal, in terms of receivers´ power constraints. These models are suited for machine-to-machine (M2M) communications and wireless sensor networks where 1) transmitters and/or receivers are battery-powered devices, 2) their locations are static once deployed, and 3) their data characteristic is not delay-sensitive.
  • Keywords
    broadcast channels; encoding; energy conservation; wireless sensor networks; (M2M communications; DPC; Gaussian broadcast channels; average throughput; battery power; digital processors; dirty paper coding; energy-efficient delay-tolerant communication; generalized power constraints; machine-to-machine communications; multiuser downlink communication; radio frequency circuits; receiver energy consumption; superposition coding; wireless sensor networks; Encoding; Optical fibers; Passive optical networks; Receivers; Time division multiple access; Tin; Transmitters;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Global Communications Conference (GLOBECOM), 2014 IEEE
  • Conference_Location
    Austin, TX
  • Type

    conf

  • DOI
    10.1109/GLOCOM.2014.7037354
  • Filename
    7037354