Figure - uploaded by Martin Ebner
Content may be subject to copyright.

Source publication
Conference Paper
Full-text available
Teaching coding is currently gaining momentum in classrooms and informal learning spaces (coding fairs, labs, challenges, etc.) all over the world. In Europe, the Middle East and North Africa, a number of organizations offering coding courses for refugees (e.g. Refugees on Rails, HackYourFuture, CodeYourFuture) have been created as a reaction to th...

Similar publications

Article
Full-text available
This paper explores influences on a migration of hub status in an intermodal network from a port to an inland node by following the life cycle of an inland terminal development. The methodology is a longitudinal case study of the Swedish intermodal system over a period of 20 years, based on documentation, interviews and action research. We observe...

Citations

... Makerspaces as informal learning environments have a clear outlier characteristic as these settings often enable a very interdisciplinary context for people to work in and explore new ideas together. Lastly, on-the-job learning programs offer specifically practice-based and often interdisciplinary approaches to life-long learning in a business or institutional setting (Grandl et al., 2021;Sagbauer et al., 2022;Wolf & Ebner, 2018). ...
Conference Paper
Full-text available
The leap from formal education to a modern work environment is often surprisingly difficult. Having young people struggle in these transitional periods while entrepreneurs and businesses strive to merge new team members is a worthy cause to investigate. The process of teacher education can not adequately cope with the intensity of technological and methodological progress. Based on expert-driven, participatory workshops in Austria, the effects and benefits of practitioner integration are evaluated. In multiple stages based on an action research methodology, the problem-solving approach of Computational Thinking (CT) was introduced to learners aged 16 to 18 (K-12) with the help of outside practitioners. This research project reveals the immense potential of expert integration in a secondary school classroom setting. The primary research question of "What consequences has practitioner integration on Computational Thinking education?" is answered. With the development of sustainable, interdisciplinary interfaces between teaching staff and industry experts a multitude of systemic problems in the educational system can be mitigated and the missing link to Computational Thinking education established. With all involved stakeholders and driven by the needs of young learners a robust and inclusive path to practitioner integrated Computational Thinking education is established.
... Makerspaces as informal learning environments have a clear outlier characteristic as these settings often enable a very interdisciplinary context for people to work in and explore new ideas together. Lastly, on-the-job learning programs offer specifically practice-based and often interdisciplinary approaches to life-long learning in a business or institutional setting (Grandl et al., 2021;Sagbauer et al., 2022;Wolf & Ebner, 2018). ...
Conference Paper
Full-text available
This pilot study implemented an expert driven participatory workshop in a rural Austrian economic school. An action research approach was utilised to introduce the problem solving method named computational thinking (CT) to students aged 16 to 18 (K-12) in five after school workshop sessions. This research revealed the basic benefits of industry expert integration in a classroom setting with the aim to develop sustainable interdisciplinary interfaces that allow schools and individual teachers to independently showcase possible pathways. Drawbacks of the methods were identified, for example the high overhead efforts currently required without interfaces between practitioners and educators in place or the demanding time requirements. To create a strong, inclusive path to CT education for all young minds, these challenges need to be addressed and ultimately overcome with the support of all involved stakeholders.
... Carnegie Mellon University (CMU) scholar Jeannette Wing proposes that, ultimately, CT "is becoming the new literacy of the 21st century" [3] (p. 4). Her ideas led to a flood of experiments and case studies exploring the ways and methods these important skills are currently taught, ranging from young kids [4] to adult lifelong learners [5]. Experiments are conducted inside formal school settings, as well as makerspaces and after school events, all around the world [6]. ...
Article
Full-text available
After a lengthy debate within the scientific community about what constitutes the problem solving approach of computational thinking (CT), the focus shifted to enable the integration of CT within compulsory education. This publication strives to focus the discussion and enable future research in an educational setting with a strong focus on the Austrian circumstances and the goal to allow wide international adoption later on. Methodically, a literature review was conducted to gain knowledge about the current strands of research and a meta study to show the diversity of proposed and materialized studies. Three main questions were answered, establishing that CT as an idea is rooted in scientific literature dating back to the 1980s and grew in popularity after Wing introduced the concept to a broader audience. A number of authors contributed to the current state of the field, with the most cited review coming from Grover and Pea. The challenge to integrate CT in curricula around the world was met by many experiments and case studies but without a conclusive framework as of yet. Ultimately, this paper determines that expert integration is a blank spot in the literature and aims to create a strong, inclusive path to CT education by inviting practitioners.