• DocumentCode
    3601091
  • Title

    Small-Cell Traffic Balancing Over Licensed and Unlicensed Bands

  • Author

    Feilu Liu ; Bala, Erdem ; Erkip, Elza ; Beluri, Mihaela C. ; Rui Yang

  • Author_Institution
    Polytech. Sch. of Eng., New York Univ., New York, NY, USA
  • Volume
    64
  • Issue
    12
  • fYear
    2015
  • Firstpage
    5850
  • Lastpage
    5865
  • Abstract
    The Third-Generation Partnership Project (3GPP) has recently started standardizing the “licensed-assisted access using LTE” for small cells, which is referred to as dual-band femtocell (DBF) in this paper, which uses the Long-Term Evolution (LTE) air interface in both the licensed and unlicensed bands based on the LTE carrier aggregation feature. Alternatively, the Small Cell Forum introduced the integrated femto-WiFi (IFW) small cell, which simultaneously accesses both the licensed band (via cellular interface) and the unlicensed band (via WiFi interface). In this paper, a practical algorithm for IFW and DBF to automatically balance their traffic in licensed and unlicensed bands, based on the real-time channel, interference, and traffic conditions of both bands, is described. The algorithm considers the fact that some “smart” devices (sDevices) have both cellular and WiFi radios, while some WiFi-only devices (wDevices) may only have WiFi radio. In addition, the algorithm considers a realistic scenario where a single small-cell user may simultaneously use multiple sDevices and wDevices via either the IFW or the DBF in conjunction with a wireless local area network. The goal is to maximize the total user satisfaction/utility of the small-cell user, while keeping the interference from small cells to macrocells below predefined thresholds. The algorithm can be implemented at the radio link control or the network layer of the IFW and DBF small-cell base stations. Results demonstrate that the proposed traffic-balancing algorithm applied to either IFW or DBF significantly increases the sum utility of all macrocell and small-cell users, compared with the current practices. Finally, various implementation issues of IFW and DBF are addressed.
  • Keywords
    3G mobile communication; Long Term Evolution; femtocellular radio; radio links; telecommunication traffic; wireless LAN; 3GPP; LTE carrier aggregation feature; Long Term Evolution air interface; Wi-Fi radio; cellular radio; dual-band femtocell; integrated femto-Wi-Fi small cell base station; interference condition; licensed band; licensed-assisted access; network layer; radio link control; small-cell traffic balancing; smart device; third-generation partnership project; traffic condition; traffic-balancing algorithm; unlicensed band; wireless local area network; Downlink; Femtocells; IEEE 802.11 Standards; Interference; Long Term Evolution; Throughput; Wireless LAN; 802.11; Femtocell; LTE-U; LTE-Unlicensed; LTE-unlicensed (LTE-U); Licensed-Assisted Access using LTE; femtocell; licensed-assisted access using Long-Term Evolution (LTE); traffic balancing; unlicensed band;
  • fLanguage
    English
  • Journal_Title
    Vehicular Technology, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9545
  • Type

    jour

  • DOI
    10.1109/TVT.2014.2387798
  • Filename
    7001686