Jason Friedman's literature database

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Jason Friedman's literature database Displays records where serial is equal to 72 2024-04-27T09:04:00+00:00 Jason Friedman's literature database write.to.jason@gmail.com https://refbase.nfshost.com/ Web Reference Database (http://refbase.sourceforge.net) https://refbase.nfshost.com/img/favicon.ico https://refbase.nfshost.com/img/logo.png https://refbase.nfshost.com/show.php?where=serial%20%3D%2072&exportType=xml&submit=Export&exportFormat=Atom%20XML 1 1 1 https://refbase.nfshost.com/show.php?record=72 <div xmlns="http://www.w3.org/1999/xhtml">Constrained Motion Control on a Hemispherical Surface – Path Planning</div> 2014-10-28T09:31:49+00:00 2013-11-26T06:40:32+00:00 Jason Friedman

Berman, S., Liebermann, D. G., & McIntyre, J. (2014). Constrained Motion Control on a Hemispherical Surface – Path Planning. J Neurophysiol, 111(5), 954–968.

Surface-constrained motion, i.e., motion constraint by a rigid surface, is commonly found in daily activities. The current work investigates the choice of hand paths constrained to a concave hemispherical surface. To gain insight regarding the paths and their relationship with task dynamics, we simulated various control policies. The simulations demonstrated that following a geodesic path is advantageous not only in terms of path length, but also in terms of motor planning and sensitivity to motor command errors. These stem from the fact that the applied forces lie in a single plane (that of the geodesic path itself). To test whether human subjects indeed follow the geodesic, and to see how such motion compares to other paths, we recorded movements in a virtual haptic-visual environment from eleven healthy subjects. The task was comprised of point-to-point motion between targets at two elevations (30 degrees and 60 degrees ). Three typical choices of paths were observed from a frontal plane projection of the paths: circular arcs, straight lines, and arcs close to the geodesic path for each elevation. Based on the measured hand paths, we applied k-means blind separation to divide the subjects into three groups and compared performance indicators. The analysis confirmed that subjects who followed paths closest to the geodesic produced faster and smoother movements, compared to the others. The 'better' performance reflects the dynamical advantages of following the geodesic path, as shown by the simulations, and may also reflect invariant features of the control policies used to produce such a surface-constrained motion.

Constrained Motion Control on a Hemispherical Surface – Path Planning Berman, S. Liebermann, D.G. McIntyre, J. info:doi/10.1152/jn.00132.2013 info:pmid/24259548 openurl:?ctx_ver=Z39.88-2004&rfr_id=info%3Asid%2Fhttps%3A%2F%2Frefbase.nfshost.com%2F&genre=article&atitle=Constrained%20Motion%20Control%20on%20a%20Hemispherical%20Surface%20-%20Path%20Planning&title=Journal%20of%20Neurophysiology&stitle=J%20Neurophysiol&issn=0022-3077&date=2014&volume=111&issue=5&spage=954&epage=968&aulast=Berman&aufirst=S.&au=Liebermann%2C%20D.G.&au=McIntyre%2C%20J.&id=info%3Adoi%2F10.1152%2Fjn.00132.2013&sid=refbase%3AJF citekey:Berman_etal2014 Berman, S., Liebermann, D. G., & McIntyre, J. (2014). Constrained Motion Control on a Hemispherical Surface – Path Planning. J Neurophysiol, 111(5), 954-968. 2014 JournalArticle text Constrained motion geodesics path planning url:http://www.ncbi.nlm.nih.gov/pubmed/24259548 English 0022-3077 Journal of Neurophysiology 2014 111 5 954 968