Diplomirani inženir mehatronike in adaptronike (un)/diplomirana inženirka mehatronike in adaptronike (un)

The qualification holder will be able to:

General competences:

• Understand basic concepts and laws of scientific starting points of the discipline, which enable graduates to think analytically, and understand and breakdown complex technical, technological and economical corporate problems and situations; 
• quickly acquire and understand new theoretical and applied interdisciplinary knowledge and their application in a business environment for addressing complex technical issues;
• quickly adapt to new occupational fields and new technologies while actualizing their knowledge;
• use the access to modern information sources, efficiently search, select and use relevant data and information, and follow and upgrade knowledge;
• transfer and apply theoretical knowledge in practice and resolve problems, above all by seeking new sources of knowledge and applying scientific methods;
• Demonstrate creative and innovative thinking and acting in the framework of technical business processes in a company, autonomously resolve concrete practical problems and at the same time intervene on individual scientific fields and address the problem in a scientific manner, and also develop individual scientific methods further;
• Form and communicate expert opinion, supported by argued viewpoints of the discipline, and demonstrate efficiency in oral and written communication and business communication in an interdisciplinary and international environment;
• Demonstrate professional, ethical and environmental responsibility, business consistency, scientific fairness and individual responsibility for work results;
• Demonstrate professional, business and ethical correctness in communication, documentation and publishing scientific findings and work results, taking into account intellectual property and copyright;
• Continue their studies in the second-cycle university programmes and participate in scientific research work by having a strong professional and theoretical basic knowledge.

Subject-specific competences:

• Broaden, deepen and reinforce knowledge fro the fields of electrical engineering, mechanical engineering, materials, computer science, robotics and informatics, and upgrade theoretical and practical knowledge in the field of mechatronics and adaptronics;
• demonstrate an interdisciplinary approach, which is manifested as an understanding of the general structure of technical and natural science sciences and the links between individual disciplines and sub-disciplines,
• Demonstrate coherent mastery of basic knowledge, acquired by studying the compulsory subjects, and integration of specialist knowledge, and pragmatically apply their knowledge;
• acquire specialised theoretical and practical knowledge for autonomous professional work that is needed in order to prepare and implement tasks in the field of mechatronics and adaptronics at a high level of quality,
• Understand and apply the methods of critical analysis, theories development and their application in addressing theoretical or empirical  and concrete work-related  problems;
• use modern computer, information and communication technologies and systems in the professional field,
• Select and extract information, critically assess information in various forms, including the results of researches, technical manuals and standards, connect and scientifically interpret data, relevant for description, management and optimisation of products and systems;
• Demonstrate knowledge of control and processes quality assurance, familiarity with how to use basic legislation, standardisation, technical regulations, certification and quality assurance systems in the mechatronics and adaptronics field and other fields tied to the basic activity,
• Demonstrate communication skills to connect with experts from various fields of economic and social life, and various interest groups, and from self-confidence and determination fro business decisions and addressing concrete problems in the profession;
• perfect their knowledge of foreign languages and technical terminology and use them for international cooperation and for keeping abreast of new developments in other countries;
• Interpret information, technical and scientific data, relevant for the work process, and for addressing technical and work-related problems;
• Develop a product and process in an industrial environment and transfer prototypes in serial production;
• Plan and implement target-oriented experimental development and applicative research projects, and master and manage projects and project technology;
• autonomously keep abreast of the development of the profession and take the initiative for the introduction of new features in practice,