Abstract

ObjectivesAnalogy instruction has an advantage on motor skill learning. The effect of analogy instructional type on kinematics, particularly on inter-joint coordination, is an extremely understudied area of research. Against this background, this paper experimentally controlled the quality and quantity of the to-be-learned information included in instruction and applied principal component analysis (PCA) to time-series data of joint angles to examine whether different instruction methods could change inter-joint coordination structure. Methods and designForty-five novice participants, fifteen each for three independent groups, performed dart-throwing training with either explicit, rule-based biomechanical metaphor (RBM), or information-integrated biomechanical metaphor (IIM) instructions. Performance and kinematics were evaluated in pre-test, retention test, and transfer test that can increase psychological pressure. The dependent variables were performance outcome, joint variability, and measurements derived from PCA. ResultsAnalyses revealed a significant test effect for the performance outcome, joint variability, and PCA measurements. No significant group effect or group–test interaction was found for the performance outcome and joint variability. Significant test effect and test–group interaction were found for the wrist PC1 loading. The IIM group means significantly increased in the retention and transfer tests. The explicit and RBM group means showed no significant effects of the test. These results suggest that IIM learners significantly changed the PCA structure in the retention test and maintained it in the transfer test, whereas explicit and RBM learners did not. ConclusionsThe findings provide the first insight into the effects of information-integrated biomechanical metaphors on the acquisition of inter-joint coordination structures for novice learners.

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