6533b7dafe1ef96bd126eb54
RESEARCH PRODUCT
Principled animation design improves comprehension of complex dynamics
Richard LoweRichard LoweJean-michel Boucheixsubject
media_common.quotation_subjectMental modelKinematicscomputer.software_genre050105 experimental psychologyEducationHuman–computer interactionAnimation designDevelopmental and Educational Psychology0501 psychology and cognitive sciencesQuality (business)Computer facial animationMathematicsmedia_commonVariablesMultimedia[SCCO.NEUR]Cognitive science/Neuroscience05 social sciences050301 educationAnimationAnimation processing modelComplexityComprehensionComplex dynamicsComposition approachMental model acquisition[ SCCO.NEUR ] Cognitive science/Neuroscience0503 educationcomputerdescription
International audience; Learners can have difficulty in decomposing conventionally designed animations to obtain raw material suitable for building high quality mental models. A composition approach to designing animations based on the Animation Processing Model was developed as a principled alternative to prevailing approaches. Outcomes from studying novel and conventional animation designs (independent variable) were compared with respect to mental model quality, knowledge of local kinematics, and capacity to transfer (dependent variables). Study of a compositional animation that presented material in a contiguous fashion resulted in higher quality mental models of a piano mechanism than non-contiguous or control (conventional) versions but no significant differences regarding local kinematics or transfer. Eye fixation data indicated that the compositional animation led to superior mental models because it particularly fostered relational processing. Implications for future research and the design of educational animations are discussed.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-07-27 |