Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences

Abstract In this paper, we explore the learning and teaching of a maritime simulation programme to understand its deep learning elements. We followed the mixed methods approach and collected student perception data from a maritime school, situated within a UK university, using reflection-based surve...

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Main Authors: Md Golam Jamil, Zakirul Bhuiyan
Format: Article
Language:English
Published: SpringerOpen 2021-04-01
Series:International Journal of Educational Technology in Higher Education
Subjects:
Online Access:https://doi.org/10.1186/s41239-021-00255-0
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spelling doaj-9a6c088f82344aeaa5696639588500d62021-04-18T11:08:11ZengSpringerOpenInternational Journal of Educational Technology in Higher Education2365-94402021-04-0118112210.1186/s41239-021-00255-0Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiencesMd Golam Jamil0Zakirul Bhuiyan1University of BristolSolent UniversityAbstract In this paper, we explore the learning and teaching of a maritime simulation programme to understand its deep learning elements. We followed the mixed methods approach and collected student perception data from a maritime school, situated within a UK university, using reflection-based survey (n = 112) and three focus groups with eleven students. Findings include the needs for defining clear learning outcomes, improving the learning content to enable exploration and second-chance learning, minimising theory–practice gaps by ensuring skills-knowledge balance and in-depth scholarship building, facilitating tasks for learning preparation and learning extension, and repositioning simulation components and their assessment schemes across the academic programme. Overall, the paper provides evidence on the importance of deep learning activities in maritime simulation and suggests guidelines on improving the existing practice. Although the findings are derived from a maritime education programme, they can be considered and applied in other academic disciplines which use simulation in their teaching and learning.https://doi.org/10.1186/s41239-021-00255-0Maritime simulationDeep learningPedagogyHigher education
collection DOAJ
language English
format Article
sources DOAJ
author Md Golam Jamil
Zakirul Bhuiyan
spellingShingle Md Golam Jamil
Zakirul Bhuiyan
Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
International Journal of Educational Technology in Higher Education
Maritime simulation
Deep learning
Pedagogy
Higher education
author_facet Md Golam Jamil
Zakirul Bhuiyan
author_sort Md Golam Jamil
title Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
title_short Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
title_full Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
title_fullStr Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
title_full_unstemmed Deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
title_sort deep learning elements in maritime simulation programmes: a pedagogical exploration of learner experiences
publisher SpringerOpen
series International Journal of Educational Technology in Higher Education
issn 2365-9440
publishDate 2021-04-01
description Abstract In this paper, we explore the learning and teaching of a maritime simulation programme to understand its deep learning elements. We followed the mixed methods approach and collected student perception data from a maritime school, situated within a UK university, using reflection-based survey (n = 112) and three focus groups with eleven students. Findings include the needs for defining clear learning outcomes, improving the learning content to enable exploration and second-chance learning, minimising theory–practice gaps by ensuring skills-knowledge balance and in-depth scholarship building, facilitating tasks for learning preparation and learning extension, and repositioning simulation components and their assessment schemes across the academic programme. Overall, the paper provides evidence on the importance of deep learning activities in maritime simulation and suggests guidelines on improving the existing practice. Although the findings are derived from a maritime education programme, they can be considered and applied in other academic disciplines which use simulation in their teaching and learning.
topic Maritime simulation
Deep learning
Pedagogy
Higher education
url https://doi.org/10.1186/s41239-021-00255-0
work_keys_str_mv AT mdgolamjamil deeplearningelementsinmaritimesimulationprogrammesapedagogicalexplorationoflearnerexperiences
AT zakirulbhuiyan deeplearningelementsinmaritimesimulationprogrammesapedagogicalexplorationoflearnerexperiences
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