• DocumentCode
    1441367
  • Title

    Development and Analysis of a Sliding Tactile Soft Fingertip Embedded With a Microforce/Moment Sensor

  • Author

    Ho, Van Anh ; Dao, Dzung Viet ; Sugiyama, Susumu ; Hirai, Shinichi

  • Author_Institution
    Dept. of Robot., Ritsumeikan Univ., Kusatsu, Japan
  • Volume
    27
  • Issue
    3
  • fYear
    2011
  • fDate
    6/1/2011 12:00:00 AM
  • Firstpage
    411
  • Lastpage
    424
  • Abstract
    We describe the development of a tactile hemispherical soft fingertip (FT) of a size similar to that of a human thumb. The sensory core consists of a microscaled force/torque sensor that can output one component of force and two components of moment simultaneously, which was developed beforehand. This sensor is embedded in a polyurethane rubber hemispherical dome to form a complete soft, compliant, and perceptible robotic FT. This system is designed for easy fabrication, high reliability in outputting signals, and stable operation. Static and dynamic mathematical analyses were utilized to investigate the responses of the sensor during the typical sliding motion of an FT. This was followed by experiments to show its potential in tactile and texture recognition. Especially, incipient-slip detection, which is critical in grasping manipulations, can be assessed properly and in a timely way. The development of this tactile FT is considered significant in the field of dexterous manipulation.
  • Keywords
    dexterous manipulators; force sensors; microsensors; tactile sensors; dexterous manipulation; dynamic mathematical analysis; grasping manipulation; human thumb; incipient slip detection; microforce-moment sensor; microscaled force-torque sensor; perceptible robotic FT; polyurethane rubber hemispherical dome; sensory core; sliding motion; sliding tactile hemispherical soft fingertip; static mathematical analysis; tactile FT; tactile recognition; texture recognition; Bridge circuits; Force; Mathematical model; Robot sensing systems; Skin; Stress; Contact modeling; sliding motion; soft fingertip (FT); tactile sensing;
  • fLanguage
    English
  • Journal_Title
    Robotics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1552-3098
  • Type

    jour

  • DOI
    10.1109/TRO.2010.2103470
  • Filename
    5706372