Mechanisms for Force Adjustments to Unpredictable Frictional Changes at Individual Digits During Two-Fingered Manipulation

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Mechanisms for Force Adjustments to Unpredictable Frictional Changes at Individual Digits During Two-Fingered Manipulation

Ingvars Birznieks, Magnus K. O. Burstedt, Benoni B. Edin, and Roland S. Johansson

Department of Physiology, Umeå University, SE-901 87 Umeå, Sweden

Birznieks, Ingvars, Magnus K. O. Burstedt, Benoni B. Edin, and Roland S. Johansson. Mechanisms for force adjustmentsto unpredictable frictional changes at individual digits duringtwo-fingered manipulation. J. Neurophysiol. 80: 1989-2002, 1998.Previous studies on adaptation of fingertip forces to local frictionat individual digit-object interfaces largely focused on staticphases of manipulative tasks in which humans could rely on anticipatorycontrol based on the friction in previous trials. Here we insteadanalyze mechanisms underlying this adaptation after unpredictablechanges in local friction between consecutive trials. With thetips of the right index and middle fingers or the right and leftindex fingers, subjects restrained a manipulandum whose horizontalcontact surfaces were located side by side. At unpredictable momentsa tangential force was applied to the contact surfaces in thedistal direction at 16 N/s to a plateau at 4 N. The subjects werefree to use any combination of normal and tangential forces atthe two fingers, but the sum of the tangential forces had to counterbalancethe imposed load. The contact surface of the right index fingerwas fine-grained sandpaper, whereas that of the cooperating fingerwas changed between sandpaper and the more slippery rayon. Theload increase automatically triggered normal force responses atboth fingers. When a finger contacted rayon, subjects allowedslips to occur at this finger during the load force increase insteadof elevating the normal force. These slips accounted for a partitioningof the load force between the digits that resulted in an adequateadjustment of the normal:tangential force ratios to the localfriction at each digit. This mechanism required a fine controlof the normal forces. Although the normal force at the more slipperysurface had to be comparatively low to allow slippage, the normalforces applied by the nonslipping digit at the same time had tobe high enough to prevent loss of the manipulandum. The frictionalchanges influenced the normal forces applied before the load rampas well as the size of the triggered normal force responses similarlyat both fingers, that is, with rayon at one contact surface thenormal forces increased at both fingers. Thus to independentlyadapt fingertip forces to the local friction the normal forceswere controlled at an interdigital level by using sensory informationfrom both engaged digits. Furthermore, subjects used both short-and long-term anticipatory mechanisms in a manner consistent withthe notion that the central nervous system (CNS) entertains internalmodels of relevant object and task properties during manipulation.

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