Inverse piano technique: A new tool to study finger interdependence

Mark K. Budgeon, Zong Ming Li, Mark L. Latash, Vladimir M. Zatsiorsky

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Two phenomena previously observed In multi-finger static maximum voluntary contraction (MVC) tasks -(1) force deficit and (2) enslaving - were compared with the force patterns produced during sub-maximal dynamic tasks. A new tool, the inverse piano, was designed to measure the finger forces during the sub-maximal dynamic tasks. During the dynamic experiments, the keys of the IP elevated according to a computer run program. Subjects (n = 9) were instructed to press down the elevated keys as fast as they can. All finger combinations were tested (totally 15). Force deficit was not observed for the dynamic tasks. Two aspects of the enslaving effects (EE) for the dynamic task were found to be similar with the MVC task: the EEs were relatively large (as much as 47.4% of the maximum force produced) and nearly symmetrical. Proximity effects and occlusion were not prevalent in the experiment where the key combination was known prior to key activation. In the case where the key combination was unknown and randomly chosen, proximity effects were retained, but occlusion was not observed. Inter-finger connection matrices (IFM) calculated for both the MVC and dynamic tasks further stressed the dissimilarity between the force patterns used to complete the tasks.

Original languageEnglish (US)
Title of host publication14th Symposium onHaptics Interfaces for Virtual Environment andTeleoperator Systems 2006 - Proceedings
Pages395-398
Number of pages4
StatePublished - Nov 17 2006
Event14th Symposium on Haptics Interfaces for Virtual Environment and Teleoperator Systems 2006 - Alexandria, VA, United States
Duration: Mar 25 2006Mar 26 2006

Publication series

Name14th Symposium onHaptics Interfaces for Virtual Environment andTeleoperator Systems 2006 - Proceedings
Volume2006

Other

Other14th Symposium on Haptics Interfaces for Virtual Environment and Teleoperator Systems 2006
Country/TerritoryUnited States
CityAlexandria, VA
Period3/25/063/26/06

All Science Journal Classification (ASJC) codes

  • General Engineering

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