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
Enhancing Cybersecurity Training: Effective Learning Strategies, Clear Communication, and Demand-Driven Programs
Best practices Effective Learning Strategies, Clear Communication, and Demand-Driven Programs in Cybersecurity Users: Training providers (public) | Training providers (private) | SMEs | Theme: Reskilling and upskilling | Action: Professional training | Beneficiaries: Industry | SMEs | Labour force (employed) | Labour force (unemployed) CYRUSCYRUS Project Enrico Frumento, CEFRIELAlessia Golfetti, Deep Blue In the constantly evolving realm of cybersecurity, the human aspect is crucial yet frequently underestimated. Cybersecurity involves protecting IT systems from threats posed by cybercriminals. These criminals might aim to manipulate systems, steal or export data, or disrupt or alter services. However, what occurs when individuals, rather than IT systems, become the focus of these attacks? Moving from targeting systems to targeting people necessitates a different methodology and a shift in tactics. The CYRUS European project developed personalised cybersecurity training programmes specifically for the manufacturing and transport sectors. The project identified key findings regarding the distinct skill shortfalls and training necessities within these industries. These sectors’ peculiar challenges are not merely technical. There is a strong request of personalised training to enable employees at every level, from the factory floor to the executive suite, to recognise and counter cybersecurity threats effectively. The other need is the decoding of complexity of cybersecurity, which often is more focused on basic skills and personal cyber hygiene. The challenge? Today, we witness an increasing demand for advanced skills and a chronic lack of dedicated time from learners. Due to these challenges, cybersecurity experts and instructors have explored alternative teaching methodologies in cybersecurity training. Cybersecurity is one of the most challenging areas due to the rapidly changing Tactics, Techniques, and Procedures (TTPs) used in cybercrime. Defensive technologies are keeping up with the same speed of change. This challenge is where CYRUS comes in – experimenting with pedagogical methodologies to enhance and make cybersecurity training more efficient. On one hand EU is heavily investing in creating training opportunities, but with a quite often sub-optimal approach. The result is a crowded panorama of training offerings, sometimes overlapping and of hetereogeneous quality. One of the challenges of CYRUS was to create a training catalogue which is clear, multilingual, prepared with modern pedagogical approach and ground based on which are the real pains of the working forces and companies. Our solution Select the proper learning paradigm among pedagogy, andragogy and heutagogy, especially cybersecurity learning: Instructional methodologies are categorised into four macro areas: Non-Interactive Learning, Interactive Learning, Shared Learning, and Evaluation and Monitoring, each tailored to address the unique needs of adult learners. Non-interactive learning methodologies, rooted in traditional pedagogy, emphasise direct instruction and structured content delivery. Interactive Learning methodologies, informed by andragogical principles, prioritise active engagement and collaboration among learners. Shared Learning methodologies, inspired by heutagogical principles, underscore the importance of community, collaboration, and knowledge-sharing. Evaluation and Monitoring methodologies are crucial in assessing learning outcomes and guiding ongoing improvement efforts. Do massive use of instructional design: The instructional design approach for the CYRUS Project reflects a dynamic and adaptive framework rooted in the principles of pedagogy, Andragogy, and heutagogy. Clarity of language: use the ISO 24495-1:2023 on plain language Ad-hoc training: Root your training catalogue on ground truth, which means the actual pains and lack of companies and people. For example, in the CYRUS project, one of the most requested courses was on personal and corporate cyber hygiene, which reflects the fear of most people of wrongdoing and perils in the cyber realm. We started to affect behavioural shifts in cybersecurity from there. Outcomes CYRUS free Courses catalogue: The CYRUS project is ongoing, and the course catalogue will be delivered in April. Chunk courses, choose the best learning paradigm, and keep content simple (i.e., the KISS approach) but effective: The pilot programs, performed between October 2024 and February 2025, helped us identify some interesting challenges and refine the training content. One of the most significant findings is the necessity to present the material in small, interactive chunks (e.g., chunking was preferred over nudging). This approach aligns with current trends in online training in other educational sectors, but less on cybersecurity, where long and complex courses are still the norm. Basic skills are the most requested: There is a greater demand for basic skills that are immediately applicable to everyday work. For instance, the most requested course was on personal and corporate cyber hygiene to protect themselves, their families and loved ones, and the corporation. Key takeaways Explore and Apply New Learning Paradigms: Effective cybersecurity training requires selecting the right approach or combination of approaches—pedagogy, andragogy, or heutagogy—based on the audience. Given that many learners are professionals balancing work and training, programs must be flexible, engaging, and tailored. Additionally, training programs for trainers are essential to ensure effective knowledge transfer. Cybersecurity Training must go beyond technical skills, behavioural shifts are key: Cybersecurity training is a risk reduction method that enhances an organization’s overall security posture. Training should foster a cultural shift where security is seen as a way to improve both personal and professional well-being. Instead of reinforcing a “”toxic culture of error,”” training should make online security natural and stress-free. The Role of Instructional Design: A strong instructional design framework, like the one used in CYRUS, helps create structured, impactful, and adaptive cybersecurity training programs. Clarity in Communication: Using ISO 24495-1:2023 plain language principles ensures that complex cybersecurity concepts are easily understandable, making training more accessible. Demand-Driven Training for Relevance: Cybersecurity training should be rooted in real-world concerns. In the CYRUS project, cyber hygiene training was in high demand, highlighting the importance of addressing learners’ fears and practical needs. This approach increases adoption and drives meaningful behavioral change. Learn more here
Leveraging flexible approaches and platforms for SME engagement in master’s programme design
Best practices Leveraging flexible approaches and platforms for SME engagement in master’s programme design Users: Training Providers (Public) | Theme: Industry Engagement | Action: Education Programmes/Courses | Beneficiaries: Training Providers (Public), Industry, SMEs DIGITWIN4CIEU digitwin4ciue.eu Ignacio González Tejada – Center of Excellence Director, UPM Rocío López Espinosa – Project Coordinator, UPM Beatriz Martín Bautista-Cerro – Project Manager, UPM DIGITWIN4CIEU offers a master’s degree across Spain, France, Hungary, and Turkey, equiping civil engineers with digital skill’s for the industry’s transformation. The quality and relevance of the content is largely ensured due to the industry and academic experts from SMEs and universities that have collaborated in the development of this masters. The challenge? Convincing SMEs in manufacturing to embrace the virtualization of infrastructures proves challenging, as they are already struggling to adapt to industry-specific requirements such as developing Building Information Modelings (BIM). Additionally, SMEs are hesitant to invest in sponsoring students and face limited availability of employees to participate in the preparation stages of the Master’s programme due to professional projects and deadlines that they must adhere to. Our solution DIGITWIN4CIUE offers an Executive Master’s in Digital Twins for Infrastructures and Cities, featuring an academic programme designed with flexibility. To attract professionals from different disciplines in the built environment industry, flexible scheduling options such as evening or recorded classes have been implemented. DIGITWIN4CIUE is developing tailor-made training, including long-term courses and MOOC programs, with specialized content designed to meet industry needs. This continuous generation of technical content aims to shape the mindset of SME managers and highlight the importance of adapting to technological advancements. DIGITWIN4CIUE has established a European Centre of Excellence, which serves as the primary platform for engaging with SMEs. It acts as a hub for innovative research, collaboration, and knowledge-sharing, bringing together experts from academia, industry, and government. Key takeaways A network of contacts to generate impact: Create a technical contents team, that will generate weekly communications of interest to persuade SMEs managers on the need to anticipate the future of the construction sector, in order to be competitive with larger entities. Regular publications on social media: Publish posts on a mix of channels, including LinkedIn, Instagram, YouTube etc. to keep stakeholders engaged in the goal of the project. Sign collaboration agreements with SME associations (e.g. ANCI, Tecniberia) to mobilise participation in programme development and deployment. Learn more here 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.