Abstract
The increasing digitalisation of society has significantly transformed our learning methods and work processes. In the field of information and communication technology (ICT) engineering education, the emergence of new digital technologies and the industrial revolution have created a need to develop new pedagogical approaches that seamlessly integrate with industry methods and practices. This dissertation focuses on creating a design framework for a digital learning ecosystem and supporting design principles that integrate online learning with engineering education, taking into account both educational policy perspectives and the experiences and expectations of community stakeholders. In this research, stakeholders include students, industry representatives, instructors in ICT engineering education and personnel involved in research and development projects in the ICT unit. The research is situated in the context of ICT engineering education at Lapland University of Applied Sciences. This study aims to ensure the realisation of an engaging and meaningful digital learning ecosystem, providing students with the opportunity to acquire the necessary skills and knowledge to solve real-world problems and prepare for the digitising industry. The purpose of this design-based research (DBR) is to deepen our understanding of the design and implementation requirements and principles of ICT engineering education.
To achieve the research goals of this study, which addresses the main research question, ‘What are the design principles and characteristics of a digital learning ecosystem that align with the needs of stakeholders and the policies in ICT engineering education?’, three sub-studies were conducted, each reported as a separate article. The first two sub-studies covered the first cycle of the DBR, and the third sub-study covered the second cycle. In the first sub-study, the thoughts and experiences of stakeholders within the current learning ecosystem of ICT engineering education were investigated. The qualitative research data consisted of interviews with students and web survey responses collected from instructors and industry representatives. The results were analysed using content analysis. The second sub-study piloted project-based learning supported by a team collaboration platform in an integrated curriculum, utilising blended learning in the context of a community of inquiry (CoI). The students’ experiences were assessed through a CoI survey, and the usage of the team collaboration platform was analysed based on server log data. The focus of the third sub-study was on students’ experiences in a fully online environment, which were examined using the CoI instrument. The results of the CoI instrument in the second and third sub-studies were analysed using the Rasch rating scale analysis method. To gain a deeper understanding, the students were also asked to provide verbal accounts of their experiences and thoughts in the third sub-study. The results of each sub-study served as a basis for planning subsequent phases and interventions, supporting the progress of the DBR and enhancing the understanding of the topic.
As a result of this doctoral research, a design framework for a digital learning ecosystem is proposed for ICT engineering education. The framework is supported by the following design principles: 1) adoption of a team collaboration platform, 2) active participation of all stakeholders in collaboration, 3) creation of an ecosystem culture, 4) utilisation of blended learning methods, 5) establishment of an instructor team, 6) creation of an online resource pool, 7) application of project-based learning methods, and 8) utilisation of industry-specific methods and concepts. These design principles can be further condensed into the characteristics of the design framework, which establishes a connection between the framework and the emerging ideologies of the present era. The characteristics of the framework include 1) cohesion, 2) collaboration, 3) sharing, 4) virtual, 5) integration, 6) tools, 7) problem-solving, and 8) technology.
The results of this research, which combines the disciplines of engineering and educational sciences, have expanded the new knowledge of engineering education and generated a theoretically and empirically justified design framework for a digital learning ecosystem in ICT engineering education. This research is significant because it fills a gap in the international research landscape and provides a solid foundation for further discussions, research projects, and advancements in the global digital transformation. In addition, it promotes collaboration between higher education institutions and industry, enabling the exchange of knowledge and expertise in this rapidly evolving field.
To achieve the research goals of this study, which addresses the main research question, ‘What are the design principles and characteristics of a digital learning ecosystem that align with the needs of stakeholders and the policies in ICT engineering education?’, three sub-studies were conducted, each reported as a separate article. The first two sub-studies covered the first cycle of the DBR, and the third sub-study covered the second cycle. In the first sub-study, the thoughts and experiences of stakeholders within the current learning ecosystem of ICT engineering education were investigated. The qualitative research data consisted of interviews with students and web survey responses collected from instructors and industry representatives. The results were analysed using content analysis. The second sub-study piloted project-based learning supported by a team collaboration platform in an integrated curriculum, utilising blended learning in the context of a community of inquiry (CoI). The students’ experiences were assessed through a CoI survey, and the usage of the team collaboration platform was analysed based on server log data. The focus of the third sub-study was on students’ experiences in a fully online environment, which were examined using the CoI instrument. The results of the CoI instrument in the second and third sub-studies were analysed using the Rasch rating scale analysis method. To gain a deeper understanding, the students were also asked to provide verbal accounts of their experiences and thoughts in the third sub-study. The results of each sub-study served as a basis for planning subsequent phases and interventions, supporting the progress of the DBR and enhancing the understanding of the topic.
As a result of this doctoral research, a design framework for a digital learning ecosystem is proposed for ICT engineering education. The framework is supported by the following design principles: 1) adoption of a team collaboration platform, 2) active participation of all stakeholders in collaboration, 3) creation of an ecosystem culture, 4) utilisation of blended learning methods, 5) establishment of an instructor team, 6) creation of an online resource pool, 7) application of project-based learning methods, and 8) utilisation of industry-specific methods and concepts. These design principles can be further condensed into the characteristics of the design framework, which establishes a connection between the framework and the emerging ideologies of the present era. The characteristics of the framework include 1) cohesion, 2) collaboration, 3) sharing, 4) virtual, 5) integration, 6) tools, 7) problem-solving, and 8) technology.
The results of this research, which combines the disciplines of engineering and educational sciences, have expanded the new knowledge of engineering education and generated a theoretically and empirically justified design framework for a digital learning ecosystem in ICT engineering education. This research is significant because it fills a gap in the international research landscape and provides a solid foundation for further discussions, research projects, and advancements in the global digital transformation. In addition, it promotes collaboration between higher education institutions and industry, enabling the exchange of knowledge and expertise in this rapidly evolving field.
Translated title of the contribution | Kohti tutkivan yhteisön digitaalista oppimisen ekosysteemiä: design-tutkimus ICT-alan insinöörikoulutuksessa |
---|---|
Original language | English |
Qualification | Doctor of Education |
Awarding Institution |
|
Supervisors/Advisors |
|
Award date | 11 Jun 2024 |
Place of Publication | Rovaniemi |
Publisher | |
Electronic ISBNs | 978-952-337-420-1 |
Publication status | Published - 17 May 2024 |
MoEC publication type | G5 Doctoral dissertation (article) |
Keywords
- learning environment
- project learning
- blended learning
- design-based research
- higher education
Field of science
- Adult education
- Computer and information sciences