• DocumentCode
    3518202
  • Title

    Range-based localization for estimating pedestrian trajectory in intersection with roadside anchors

  • Author

    Sun, Weihua ; Yamaguchi, Hirozumi ; Yasumoto, Keiichi ; Ito, Minoru

  • Author_Institution
    Grad. Sch. of Inf. Sci., Nara Inst. of Sci. & Technol., Ikoma, Japan
  • fYear
    2009
  • fDate
    28-30 Oct. 2009
  • Firstpage
    1
  • Lastpage
    8
  • Abstract
    In ITS research field, recently a lot of efforts have been made to develop driving safety support systems (DSSS) for car drivers such as warning to drivers ¿danger¿ in potential blind spots at intersections. In this paper, we propose a localization method to estimate the movement trajectories (position, speed and direction) of pedestrians near intersections by using some roadside anchors. In our method, we assume that each pedestrian is equipped with a small device which periodically emits a radio beacon signal and each roadside anchor can receive the signal and measure its received signal strength (RSS). Our method estimates the pedestrian position from RSS at each anchor based on the Maximum Likelihood Estimation (MLE) method. Moreover, to obtain an accurate pedestrian trajectory, our method applies the Bayes´ theorem to a series of estimated positions and reduces estimation errors caused by uncertainty from radio interference and other factors. Through computer simulations with RapLab, we confirmed that our method estimates pedestrian positions within 2 m error.
  • Keywords
    Bayes methods; anchors; automated highways; maximum likelihood estimation; navigation; road safety; safety systems; transportation; Bayes theorem; ITS; MLE; Rap Lab; intelligent transportation system; maximum likelihood estimation method; pedestrian movement trajectory estimation; radio beacon signal; radio interference; range-based localization method; received signal strength; roadside anchors; Global Positioning System; Indium tin oxide; Intelligent transportation systems; Maximum likelihood estimation; Position measurement; Road safety; Spread spectrum communication; Sun; Vehicle safety; Wireless communication;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Vehicular Networking Conference (VNC), 2009 IEEE
  • Conference_Location
    Tokyo
  • Print_ISBN
    978-1-4244-5685-7
  • Electronic_ISBN
    978-1-4244-5687-1
  • Type

    conf

  • DOI
    10.1109/VNC.2009.5416366
  • Filename
    5416366