The Master of Professional Practice

The Master of Professional Practice is the Ireland’s first interdisciplinary stackable Master’s degree. It addresses the SDG of quality
further education.

Bringing Industry to the Classroom: Expert Conferences Connecting Students with Digital Twin Innovation

Best practices Bringing Industry to the Classroom: Expert Conferences Connecting Students with Digital Twin Innovation Users: SMEs, Training providers (public), Training providers (private), Industry | Theme: Indsustry Engagement | Action: Education programmes/courses | Beneficiaries: SMEs | Labour force (employed) DIGITWIN4CIUEDIGITWIN4CIUE Beatriz Martin Bautista Cerro DIGITWIN4CIUE, through the European Center of Excellence in Digitalization of Infrastructures and Cities, offers an Executive Master’s in Digital Twins for Infrastructures and Cities. This program features a flexible academic structure, attracting professionals from various disciplines in the built environment industry.Designed for professionals and engineers passionate about digital transformation in civil engineering, smart cities, and related fields, our program provides comprehensive training in key digital technologies for digital twins in infrastructures. It equips participants with the ability to conceive and develop digital twins to tackle specific challenges in infrastructure planning, design, construction, operation, and management, while also fostering the skills needed to identify business opportunities arising from digital twin technology.The Joint Institutional Executive Master diploma is issued by three of Europe’s top engineering universities: UPM (Spain), ENPC (France), BME (Hungary) and ITU (Turkey). The challenge? How can we ensure that students not only learn about Digital Twins in class but also engage with cutting-edge innovation, industry advancements, and real-world applications?Creating direct connections between students, researchers, and professionals is key to fostering career opportunities, expanding networks, and shaping a future-ready workforce. Our solution To bridge this gap, we established a structured series of expert-led conferences throughout the academic year. These sessions take place every two weeks in both online and in-person formats and are hosted across the five partner universities delivering the master’s program.Through this initiative, students benefit from continuous exposure to industry leaders, researchers, and professionals, allowing them to:• Engage directly with key players in the field• Gain insights into the latest advancements in Digital Twin technology• Participate in discussions that link academic learning with real industry needs Outcomes This initiative fosters a growth-focused learning environment, where students exchange knowledge beyond exams and assessments—driven by curiosity and professional development.Additionally, the in-person conferences enhance networking opportunities, giving students the chance to interact first-hand with guest speakers during dedicated networking sessions. These moments are crucial for establishing connections, exploring career paths, and sparking future collaborations in the rapidly evolving Digital Twin ecosystem. Key takeaways ‘Structured & Recurring Industry Engagement: Organizing expert-led conferences every two weeks ensures continuous exposure to industry leaders and real-world applications, keeping students engaged with cutting-edge advancements.Bridging Academia & Industry: Direct interaction with industry leaders, researchers, and policymakers aligns academic learning with market needs, enhancing career readiness and professional development.Networking & Career Development: Dedicated networking sessions provide students with valuable opportunities to connect with professionals, explore career paths, and foster collaborations in the Digital Twin ecosystem. Learn more here

A Joint European Degree label in Engineering to facilitate accreditation

Best practices A Joint European Degree label in EngIneering to facilitate accreditation Users: Policymakers (EU), Training Providers (Public) | Theme: Accreditation & Certification | Action: Framework/Methodology | Beneficiaries:Training Providers (Private), Training Providers (Public) JEDI jedilabel Lucía Linares, Project Manager, UPMRamón Martínez, Project Coordinator, UPM The JEDI project, coordinated by Universidad Politécnica de Madrid (UPM), brought together sixteen educational institutions from eleven countries to explore and develop a European label for joint degree programmes in engineering. As student mobility and such types of degrees are on the rise, there is a need to refine common assessment criteria. In collaboration with accreditation agencies, ministries, and employers, JEDI explores the feasibility and impact of this label and promotes innovative learning methodologies that highlight European values in joint programmes. The challenge? The JEDI project was tasked with developing a label under which recognised joint degrees could be delivered across Europe. This included acceptance by employers, as well as compatibility with national legislations. However, the lack of harmonised regulations for joint degrees created obstacles in their recognition across different countries. National engineering professional associations were also hesitant to recognise foreign programmes, making it difficult to integrate these degrees into the broader European engineering, technology, and science sectors. Our solution JEDI established a structured framework to guarantee consistency and quality, align curricula in terms of learning outomes, and establish quality assurance and accreditation criteria. It then developed a prototype label based on common criteria and made the label widely accepted and credible at the European level. JEDI tested the prototype label on selected joint degree programmes and gathered feedback from students, academic institutions, and employers to assess its impact and refine its applicability and effectiveness. Key takeaways Stakeholder-Driven Evaluation Process: Actively collect feedback from universities, employers, and accreditation bodies to ensure the joint degree label meets both academic and industry needs, ensuring relevance and sustainablity. Leveraging Existing Accreditation Frameworks: Incorporate insights from established accreditation systems such as EUR-ACE, aligning joint degrees with industry standards and ensuring they meet the specific requirements of European engineering and technology programmes. Learn more here

SME involvement in master’s programme design: development of engagement models

Best practices SME involvment in master’s programme design: development of engagement models Users: Training Providers (Public) | Theme: Industry Engagement | Action: Education Programmes/Courses | Beneficiaries: Training Providers (Public), Training Providers (Private)   AI and Health aiandhealth.eu Baran Bayindir, CEO, Smart Lab Partner AI and Health offers a double master’s degree across France, Spain, Italy, and Sweden, integrating AI technologies into healthcare, biology and medicine. To ensure the quality and relevance of the content in such a dynamic field requires the involvement of domain experts and key industry actors. These actors can provide links to the latest advancements in the field and real-life use case that can be incorporated in the curriculum.   The challenge? A key challenge in the AI and Health programme was ensuring the early involvement of skilled talent and SMEs in the programme design. Delays in engaging industry actors hindered the ability to establish necessary operational steps and align academic content with real-world industry needs. Without early planning, maintaining SME participation and ensuring long-term programme effectiveness became difficult. Our solution Hands-on Training with Industry Experts: SMEs were actively involved in course creation, and industry professionals were integrated into the training staff, ensuring that content remained relevant to real-world applications in AI and healthcare. Integrated Micro-Credentials & Digital Certification: The programme was designed around micro-credentials and digital certification systems, enhancing industry recognition and promoting professional participation. Key takeaways Raise Awareness Through Events: Regularly host collaborative events bringing together academia and industry, in order to promote cross-sector engagement and help align academic programmes with industry needs. Prepare Engagement Models in Advance: Develop structured SME engagement models that introduce companies to study courses early. Allowing for better integration of industry requirements into the programme. Learn more here Submit your practice Case Summary– Context: Fit4internet is a non-profit initiative aimed at enhancing digital literacy across Austria. By using the Digital Competence Framework (DigComp AT), which identifies key components of digital competencies and aligns with European standards, Fit4internet helps individuals showcase their digital skills. The Fit4internet platform offers a way to track and prove digital competencies, helping with employability and ensuring that the Austrian workforce has the necessary ICT skills to meet market demands. Through the digital skills profile platform, the initiative supports both individual growth and the development of a digitally capable society.  Challenge: The challenge faced is managing proof of competencies acquired through various learning methods, including formal education, non-formal training, and informal certifications, which can lead to inconsistent records.  Securing sustainable funding to support the continuous development of new digital competencies, ensuring that programs remain up-to-date with evolving market needs. The second main challenge was fostering broad participation and engagement, especially among groups who may lack access to digital tools or education. Identified Approach / Solution: The Fit4internet platform provides a centralised, user-friendly system to manage and showcase digital competencies, aligning with the European Qualifications Framework (EQF). Through this platform, individuals can track and showcase their digital skills, making it easier for employers, educators, and organisations to assess their talent. The platform allows users to create an e-portfolio that showcases their digital skills, with the option to share it through a link or as a PDF. This portfolio highlights the digital competencies that a user has acquired, linked to their certificates. These certificates can be formal, non-formal, or informal. The platform also supports the generation of a digital skills profile that showcases the user’s acquired skills. Users earn digital badges as a visual representation of their skills. This allows them to continue with their learning journey, while showing off their competencies to others. Outcomes:       Key takeaways: Fit4internet engage multiple stakeholders from academia, industry, and policy to develop holistic and relevant digital competency frameworks. They also use widely applied frameworks to measure skills gaps, enabling better planning for individuals and institutions. By doing this they improve reinsertion rates into the labor force by addressing individuals digital skill gaps and aligning them with market needs. This benefits companies by providing clear insights into the skillsets that are being developed and that are available in the workforce.

Denmarks’s responsive policy approaches for rapid accreditation in vocational and higher education

In 2013, the Accreditation Act in Denmark, led to a shift in accreditation of courses, in particular from programme-based to institutional accreditation.

The institutional accreditation process evaluates the quality assurance systems of higher education institutions, focusing on whether they are well-documented and effective in enhancing programme quality. The Danish Accreditation Institute works closely with an expert panel to ensure thorough assessments.

The process results in an accreditation report that is handed over to the Accreditation Council. Based on the report, the council makes a decision on whether to classify the institution as ‘self-accrediting institution’. What this entails, is that the institution can make changes to existing programmes as they please, as long as the changes do not change a programme’s identity.

Framework for competency-based evaluation of students in higher education

Designing content in higher education is often associated with a lack of agility. Universities create fixed curricula, following rigid schedules, which do not match market dynamics, but rather limit their adaptability to rapidly evolving digital skills requirements

MERIT has the task of creating an educational ecosystem, spanning across Estonia, Lithuania, Latvia, Italy and Spain to train digital specialists and improve the evaluation of different students or courses by matching study programmes to the skills produced.