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Task constraints act at the level of synergies and at the level of end-effector kinematics in manual reaching and manual lateral interception.

Inge Tuitert, Laura Golenia, Egbert Otten, Reinoud J. Bootsma, Raoul M. Bongers

2020Journal of Experimental Psychology Human Perception & Performance11 citationsDOIOpen Access PDF

Abstract

= 15) performed discrete movements of identical amplitude in manual reaching (stationary targets) and manual lateral interception (moving targets, with different angles of approach). We found that time-velocity profiles were roughly symmetric in reaching, whereas they had a longer decelerative tail and showed an angle-of-approach effect in interception. Uncontrolled manifold analyses showed that in all conditions joint angle variability was primarily covariation, indicating a synergistic organization. The analysis on the clusters of joint angle configurations demonstrated differences between reaching and interception synergies, whereas more similar synergies were used within interception conditions. This implies that some task constraints operate at the level of synergies while other task constraints only affect end-effector kinematics. The results support a 2-step process in the organization of DOF, consisting of synergy formation and further constraining of synergies to produce the actual movement, as proposed by Kay (1988). (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Topics & Concepts

KinematicsInterceptionTask (project management)Robot end effectorComputer scienceProcess (computing)SimulationControl theory (sociology)Physical medicine and rehabilitationArtificial intelligenceEngineeringBiologyEcologyRobotControl (management)PhysicsSystems engineeringClassical mechanicsOperating systemMedicineMotor Control and AdaptationAction Observation and SynchronizationMuscle activation and electromyography studies
Task constraints act at the level of synergies and at the level of end-effector kinematics in manual reaching and manual lateral interception. | Litcius