The Impact of Cybernetic Relationships Between Education and Work-Based Learning
Birgit Oberer, Alptekin Erkollar
Education is a concept that is in a constant state of evolution, spanning various disciplines and serving as a conduit between academia, industry, and technological innovation. In the context of rapidly transforming labor markets driven by automation, artificial intelligence, and digitalization, work-based learning (WBL) must adapt in a similar fashion. This paper employs cybernetic theory to examine the dynamic interplay between education and work environments, emphasizing the role of positive and negative feedback loops in ensuring adaptability and maintaining quality assurance in vocational education. The study draws upon Ross Ashby's First Law of Cybernetics, emphasizing the importance of variety and adaptability in educational systems. Positive feedback loops have the capacity to drive innovation by integrating emerging industry trends into curricula, whereas negative feedback loops function as regulatory mechanisms that correct outdated content and align training programs with contemporary labor market demands. The successful implementation of cybernetic principles in education ensures that graduates acquire relevant, future-proof skills. However, the full realization of the potential of cybernetic feedback mechanisms is impeded by several challenges, including rigid educational structures, resistance to AI-driven learning analytics, and delayed curriculum adaptation. This paper proposes solutions, including AI-powered educational monitoring systems, agile curriculum development, and transdisciplinary collaboration between academia, industry, and policymakers. The integration of cybernetic principles into work-based learning can transform it from a reactive model to a proactive, data-driven framework, equipping students with the necessary competencies to thrive in a dynamic and ever-evolving workforce. Full Text
|
