The Digital Electronic with Eco-designed Paradigm in Collaborative Enhanced Learning (DEEPCEL) project is an ERASMUS+ project co-funded by the European Union.
Motivation
The environment and the fight against climate change must be included in every engineering educational content in order to propose coherent knowledge and tools that are really operational and useful for our students and for future generations. In the field of electronics, the challenge is enormous. As shown in the periodic table of element scarcity (from EuChemS.eu), digital electronics is responsible for massive material depletion. Almost the entire periodic table is affected and the world is threatened by scarcity due to the non-circular massive integration of e.g. indium, gallium or lithium into digital electronic products such as smartphones [1]. In addition, the carbon footprint associated with each digital chip is extremely high compared to any other manufactured object relative to its mass [2].
Therefore, one of the core ideas of the DEEPCEL project is to define a new teaching paradigm and green skills for electronics, where we start from the planetary boundaries and follow step by step the Life Cycle Assessment of any digital electronic product. In this way, we ensure that we can pass on the same knowledge as before, while taking into account ecological constraints from the outset.
This must be done in collaboration with experts and taking into account transdisciplinary knowledge. In practice, we will need to train the professor to produce new standards for digital electronic teaching “beyond growth”. In addition, several courses and activities will be proposed as real pedagogical (remote) laboratory activities to be defined, prepared, tested and offered on three main topics: (A) eco-design of reconfigurable digital electronics solution, (B) system reuse/retrofit using reconfigurable electronics, (C) minimalist deep learning embedded predictive maintenance to extend the lifetime of complex systems.
Pirson et al. Journal of Cleaner Production 322 (2021): 128966.
Digital transformation will be addressed in the DEEPCEL project as a continuation of the DECEL project. We will continue to propose remote Open Educational Resources (OER) and Real (Remote) Laboratories (RRL), both physically and remotely accessible minimizing the carbon footprint. The environmental context will force us to revise the contents and methodologies in order to adapt them to the sustainability applied to the digital electronics transformation.
In the DEEPCEL project, the intensive use of open hardware combined with open documentation and openly accessible teaching materials will strongly contribute to inclusion and diversity by reducing barriers related to education and training systems. Every resource produced will be open source and accessible in our platforms. For our events, student’ profiles recruitment will be as inclusive and diverse as possible.
[1] Buechler, Dylan T., et al. Waste Management 103 (2020): 67-75.
[2] Pirson et al. Journal of Cleaner Production 322 (2021): 128966.
Objectives: What do you want to achieve by implementing the project?
In a tense environmental and geopolitical context, shortages of strategic materials and electronic chips are a growing threat.
Electronic waste continues to accumulate and collection and recycling efforts are still inadequate. We want to raise
awareness of these realities, to teach life cycle assessment applied to electronics, and to promote best practices in
sustainability, eco-design, reuse, upgradeability, and reconfigurability in digital electronics. We will prepare the student’s
future
Implementation: What activities are you going to implement?
We will organize initial training (E1) for teachers on methodology (life-cycle analysis, eco-design, recycling, urban mining,
etc.) applied in the field of eco-transition in digital electronics education (WP2). We will then work on the development of
modular electronics educational solutions (WP3) introducing sustainability, eco-design in electronics and use cases. We will
also work on retrofitable electronics (WP4) and organize two summer schools (E2, E3) and an impactful final workshop (E4).