• DocumentCode
    1781128
  • Title

    77 GHz radar scattering properties of pedestrians

  • Author

    Belgiovane, Domenic ; Chi-Chih Chen ; Ming Chen ; Chien, Stanley Y.-P ; Sherony, Rini

  • fYear
    2014
  • fDate
    19-23 May 2014
  • Abstract
    Using radars for detecting and tracking pedestrians has important safety and security applications. Most existing human detection radar systems operate in UHF, X-band, and 24GHz bands. The newly allocated 76-77 GHz frequency band for automobile collision avoidance radar systems has once again raised great interest in pedestrian detection and tracking at these frequencies due to its longer detection range and better location accuracy. The electromagnetic scattering properties must be thoroughly understood and analyzed so a catalog of human scattering can be utilized for intensive automotive radar testing. Measurements of real human subjects at these frequencies is not a trivial task. This paper presents validation between the measured radar cross section (RCS) patterns of various human subjects and a full-wave EM simulation. The RCS of a human is shown to depend on a number of factors, such as posture, body shape, clothing type, etc.
  • Keywords
    electromagnetic wave scattering; millimetre wave radar; pedestrians; radar cross-sections; radar detection; radar tracking; road safety; road vehicle radar; RCS patterns; X-band; automobile collision avoidance radar systems; detection range; electromagnetic scattering property; frequency 24 GHz; frequency 76 GHz to 77 GHz; full-wave EM simulation; human detection radar systems; human scattering; human subject measurements; intensive automotive radar testing; location accuracy; pedestrian detection; pedestrian tracking; radar cross section patterns; radar scattering property; safety applications; security applications; Accuracy; Antenna measurements; Clothing; Legged locomotion; Radar cross-sections; Radar detection; Radar cross section. RCS; Radar measurements; pedestrian detection;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Radar Conference, 2014 IEEE
  • Conference_Location
    Cincinnati, OH
  • Print_ISBN
    978-1-4799-2034-1
  • Type

    conf

  • DOI
    10.1109/RADAR.2014.6875687
  • Filename
    6875687