6533b85cfe1ef96bd12bcc23
RESEARCH PRODUCT
Hold design supports learning and transfer of climbing fluency
Ludovic SeifertDominic OrthKeith Davidssubject
EngineeringPhysical Therapy Sports Therapy and RehabilitationHuman Factors and Ergonomicsclimbing affordancesUSable050105 experimental psychologyLearning effectSkill transfermetastability03 medical and health sciencesFluency0302 clinical medicineskill transfer0501 psychology and cognitive sciencesOrthopedics and Sports Medicineta315Engineering (miscellaneous)business.industry05 social sciences030229 sport sciencesClimbingArtificial intelligencebusinessMotor learningentropymotor learningCognitive psychologydescription
Being a discipline with a broad range of genres, rock climbing is an activity where participants seek to generalize the skills they learn in different performance contexts. A training strategy for achieving skill transfer was explored in a group of experienced climbers. Specifically, we tested the effect of practising on three routes, each of the same difficulty, but where handholds supported opportunities for using either a single technical action or multiple actions. Transfer of climbing fluidity in terms of the geometric index of entropy (GIE) of the hip trajectory was then assessed. We expected that learning would be induced on the route where multiple actions were usable. Results revealed that GIE showed a learning effect only when practice was undertaken on a route designed with multiple graspable edges. Practice on the multi-functional route best explains why the participants' successfully generalized climbing fluency under transfer conditions.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-10-02 | Sports Technology |