![]() Education does not currently follow the opportunities and development of technologies. The field of science and technology is highly interdisciplinary and the boundaries between individual skills and technologies are fluid, but, at the same time, they are intensively interconnected. ![]() The emerging modern technologies and the possibility of developing training in this area should be investigated further. From the studied resources, we can conclude that the newer approach to teaching robotics is not yet available in this form. We can influence knowledge, learning more effectively with short-term training in the virtual world than with classical learning methods. ![]() The more intense representation of the given information influences multiple centers in the brain and, thus, the formation of multiple neural connections. We could use VR to influence the improvement of spatial and visual memory. We conducted procedure time measurements, questionnaire evaluations, and EEG evaluations. We proposed a reference model for industrial robotics education in the 21st century based on an innovative cyber-physical didactic model (CPLM). The paper contains research results from a modern learning model that addresses student problem-solving using cyber–physical systems. We focused on robotics education in secondary vocational education. We can ask ourselves how we can integrate technologies into a traditional learning process or how we can adapt the learning process to these technologies. Currently, education does not follow the opportunities and development of technologies. ![]() In parallel, the education system must also be transformed. The digitalization of industrial processes is being driven forward worldwide. ![]()
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