Education for Industry 5.0 and ESD: co-creation of engineering design challenges with industry
Education for Industry 5.0 and ESD: co-creation of engineering design challenges with industry
Since October 2022, Aston University have partnered with a leading UK employer in the industrial water/utilities sector to co-design and implement multi-disciplinary, problem-based learning (PBL) engineering design challenges that aim to address complex sustainable development (SD) challenges faced by this sector. The engineering design challenges were embedded within formal and informal postgraduate curricula. The conceptualised framework sought to develop key technical and professional, industry-desired skills in students in line with graduate competencies and attributes integral to Education for Sustainable Development (ESD). This work details the participatory co-design and implementation of a pioneering initiative in collaboration with our industrial partner, outlining the context, structural framework and pedagogical approaches implemented that are crucial to developing engineering graduates ready for the Industry 5.0 era. Survey data of student perspectives of the challenge on their skills development and overall learning experience, as well as reflections from academic staff and industry professionals involved are thematically analysed. The main findings highlight the multi-faceted benefits of our approach in facilitating learning through interdisciplinary PBL, real-world challenges and industry exposure. Also emphasised is its effectiveness in providing students with transformative learning experiences, enhancing their skills, and bridging the gap between their academic experience and industry expectations. Overall, our pedagogical approach demonstrated tangible outcomes by preparing students for the evolving needs of Industry 5.0, and fostering a skilled workforce ready for real-world, complex SD challenges, thus also signifying the relevance and impact of our methodology in the current higher education landscape.
Co-design, ESD, Industry 5.0, UN SDGs, professional skills development, engineering Education for Sustainable Development (ESD), co-creation and participatory curriculum design
Doss, Tamer Panagiotis
1cb92769-30f6-47a1-9c42-bf45a9be719d
Poursharif, Goudarz
98ddde6d-56eb-4c92-8211-94665ba5f481
Price, Hilary
7376675d-b8d5-4767-9a3e-8f0e188677a6
Buck, Lyndon
49b03b09-a98b-4edb-9b14-f5a8f6363971
8 July 2024
Doss, Tamer Panagiotis
1cb92769-30f6-47a1-9c42-bf45a9be719d
Poursharif, Goudarz
98ddde6d-56eb-4c92-8211-94665ba5f481
Price, Hilary
7376675d-b8d5-4767-9a3e-8f0e188677a6
Buck, Lyndon
49b03b09-a98b-4edb-9b14-f5a8f6363971
Doss, Tamer Panagiotis, Poursharif, Goudarz, Price, Hilary and Buck, Lyndon
(2024)
Education for Industry 5.0 and ESD: co-creation of engineering design challenges with industry.
In 2024 IEEE Global Engineering Education Conference (EDUCON).
IEEE.
6 pp
.
(doi:10.1109/EDUCON60312.2024.10578850).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Since October 2022, Aston University have partnered with a leading UK employer in the industrial water/utilities sector to co-design and implement multi-disciplinary, problem-based learning (PBL) engineering design challenges that aim to address complex sustainable development (SD) challenges faced by this sector. The engineering design challenges were embedded within formal and informal postgraduate curricula. The conceptualised framework sought to develop key technical and professional, industry-desired skills in students in line with graduate competencies and attributes integral to Education for Sustainable Development (ESD). This work details the participatory co-design and implementation of a pioneering initiative in collaboration with our industrial partner, outlining the context, structural framework and pedagogical approaches implemented that are crucial to developing engineering graduates ready for the Industry 5.0 era. Survey data of student perspectives of the challenge on their skills development and overall learning experience, as well as reflections from academic staff and industry professionals involved are thematically analysed. The main findings highlight the multi-faceted benefits of our approach in facilitating learning through interdisciplinary PBL, real-world challenges and industry exposure. Also emphasised is its effectiveness in providing students with transformative learning experiences, enhancing their skills, and bridging the gap between their academic experience and industry expectations. Overall, our pedagogical approach demonstrated tangible outcomes by preparing students for the evolving needs of Industry 5.0, and fostering a skilled workforce ready for real-world, complex SD challenges, thus also signifying the relevance and impact of our methodology in the current higher education landscape.
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More information
Accepted/In Press date: 1 May 2024
Published date: 8 July 2024
Venue - Dates:
2024 IEEE Global Engineering Education Conference (EDUCON), Kos International Convention Centre , Kos, Greece, 2024-05-08 - 2024-07-11
Keywords:
Co-design, ESD, Industry 5.0, UN SDGs, professional skills development, engineering Education for Sustainable Development (ESD), co-creation and participatory curriculum design
Identifiers
Local EPrints ID: 492660
URI: http://eprints.soton.ac.uk/id/eprint/492660
PURE UUID: d7b55ab4-e680-48d4-bbb5-734b2f03c41a
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Date deposited: 09 Aug 2024 16:47
Last modified: 19 Dec 2024 03:08
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Contributors
Author:
Tamer Panagiotis Doss
Author:
Goudarz Poursharif
Author:
Hilary Price
Author:
Lyndon Buck
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