• DocumentCode
    1405854
  • Title

    Bursty relay networks in low-SNR regimes

  • Author

    Quek, Tony Q S ; Shin, Hyundong

  • Author_Institution
    Inst. for Infocomm Res., Singapore, Zaire
  • Volume
    58
  • Issue
    2
  • fYear
    2010
  • fDate
    2/1/2010 12:00:00 AM
  • Firstpage
    694
  • Lastpage
    705
  • Abstract
    In a wireless network, the use of cooperation among nodes can significantly improve capacity and robustness to fading. Node cooperation can take many forms, including relaying and coordinated beamforming. However, many cooperation techniques have been developed for operation in narrowband systems for high signal-to-noise ratio (SNR) applications. It is important to study how relay networks perform in a low-SNR regime, where the available degrees of freedom is large and the resulting SNR per degree of freedom is small. In this paper, taking into account either low-power narrowband transmissions (P¿0) or wideband transmissions with fixed power (W¿¿), we investigate the achievable rates and scaling laws of bursty amplify-and-forward relay networks in the low-SNR regime. Specifically, our results allow us to understand the effect of different system parameters on the achievable rates and scaling laws in the low-SNR regime, and highlight the role of bursty transmissions in this regime. These results entirely depend on the geographic locations of the nodes and are applicable for both fixed and random networks. We identify four scaling regimes that depend on the growth of the number of relay nodes and the increase of burstiness relative to the SNR. We characterize the achievable rates and the scaling laws in the joint asymptotic regime of the number of relay nodes, SNR, and duty-cycle parameter. These results can serve as design guidelines to indicate when bursty transmissions are most useful.
  • Keywords
    broadband networks; radio networks; bursty amplify-and-forward relay networks; coordinated beamforming; joint asymptotic regime; low-power narrowband transmissions; low-signal-to-noise ratio regimes; node cooperation; wideband transmissions; wireless network; Array signal processing; Fading; Guidelines; Narrowband; Power system relaying; Relays; Robustness; Signal to noise ratio; Wideband; Wireless networks; Wideband relay networks; amplify-and-forward low-SNR regime, bursty, achievable rates, scaling law;
  • fLanguage
    English
  • Journal_Title
    Communications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0090-6778
  • Type

    jour

  • DOI
    10.1109/TCOMM.2010.02.080166
  • Filename
    5407634