• DocumentCode
    737960
  • Title

    Workspace Shape and Characteristics for Human Two- and Three-Fingered Precision Manipulation

  • Author

    Bullock, Ian M. ; Feix, Thomas ; Dollar, Aaron M.

  • Author_Institution
    Yale Univ., New Haven, CT, USA
  • Volume
    62
  • Issue
    9
  • fYear
    2015
  • Firstpage
    2196
  • Lastpage
    2207
  • Abstract
    Goal: To study precision manipulation, which involves repositioning an object in the fingertips and is used in everyday tasks such as writing and key insertion, and also for domain-specific tasks such as small scalpel cuts, using tweezers, and hand soldering. Methods: In this study, the range of positions (workspace) through which 19 participants manipulated a 3.3-4.1 cm-diameter object are measured with a magnetic tracker. Each participant performed two conditions: a two-finger thumb-index finger condition and a three-finger thumb-index-middle finger condition. Results: The observed workspaces, normalized to a 17.5 cm hand length, are small compared to free-finger trajectories; for the two-finger trials, 68% of points are within 1.05 cm of the centroid and 95% are within 2.31 cm, while the three-finger case shows a narrower distribution, with 68% of points within 0.94 cm of the centroid and 95% of points within 2.19 cm. The longest axis is a long thin arc in the proximal-palmar plane. Analysis of fingertip workspaces shows that the index fingertip workspace volume is the most linear predictor of object workspace (R2 = 0.98). Conclusion: Precision manipulation workspace size and shape is shown, along with how the fingers are used during the manipulation. Significance: The results have many applications, including normative data for rehabilitation, guidelines for ergonomic device design, and benchmarking prosthetic and robotic hands.
  • Keywords
    haptic interfaces; manipulator kinematics; medical robotics; prosthetics; benchmarking prosthetic hands; domain-specific tasks; ergonomic device design; hand soldering; human three-fingered precision manipulation; human two-fingered precision manipulation; index fingertip workspace volume; magnetic tracker; object repositioning; proximal-palmar plane; rehabilitation; robotic hands; size 0.94 cm to 17.5 cm; small scalpel cuts; three-finger thumb-index-middle finger condition; tweezers; two-finger thumb-index finger condition; workspace characteristics; workspace shape; Indexes; Kinematics; Robots; Shape; Thumb; Wrist; Dexterous manipulation; Human hands; dexterous manipulation; ergonomics; haptic interfaces; human hands; robot hands;
  • fLanguage
    English
  • Journal_Title
    Biomedical Engineering, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9294
  • Type

    jour

  • DOI
    10.1109/TBME.2015.2418197
  • Filename
    7073609