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Mechanical Engineering and Robotics
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Summary of the Profile
General Description:
Objective(s) of a study programme:
The study program of Mechanical Engineering and Robotics is designed to prepare professionals of mechanical engineering capable of designing technical products, to select production technologies and tools, to manage robotized technological processes, and to estimate engineering solutions from the ethical, social, economy and safety points of view.
Learning outcomes:
Generic competencies developed:
Ability to learn, and to master the latest and most relevant engineering literature Ability to deepen theoretical knowledge and practical skills in mechanical engineering and related fields such as electronics, electrical and robotics Ability to critically evaluate technology and engineering solutions. Ability to disseminate and share knowledge with other professionals in the company Ability to develop engineering solutions for production process management and robotics. Ability to introduce new technologies or innovations in production and lead a production unit.
Subject specific competencies developed:
Ability to draw and read drawings and schemes. Ability to perform mechanical and electrical measurements and use laboratory measuring instruments. Ability to ensure product quality. Ability to choose the right equipment and / or components for the production process. Ability to program CNC machines and PLC. Ability to manage the automated production process and automate the manual production process. Ability to design simple equipment and their mechanical components.
Learning outcomes:
A holder of the Bachelor's degree in Mechanical Engineering and Robotics knows and understands essential principles of mechanical engineering; has knowledge, from the field of electrical and electronics engineering, and is able to apply them in practice; has the abilities to apply basic engineering principles and analytical techniques to problem formulation and solution. Moreover, he has an understanding of the engineering design process, at both the conceptual and detail levels, is familiar with the key factors in the business environment, such as marketing skills, financial awareness and investment appraisal. He possesses a range of transferable skills including communication, calculation, using of information technology, project management and working in a team.
Activities of teaching and learning:
Traditional as well as innovative teaching and learning methods are used, such as: lectures, interactive lectures, practical assignments, laboratory works, individual and group projects, seminars, workshops, practice with placements in companies, discussions, application of special software packages, educational tours, modelling of real situations, individual consultations, report writing and presentation.
Methods of assessment of learning achievements:
Written examination, oral examination, project on engineering, project report, test, description of laboratory work, defence of laboratory work, practice report, practice defence, defence of the final project.
Framework:
Study subjects (modules), practical training:
The study program consists of three blocks: co-university subjects 15 credits, the main subjects of the study field are 155 credits and specialization 40 credits. The purpose of the co- university subjects is to develop wide-ranging, active, open and responsible members of the modern society. The main subjects of the study field are: general engineering subjects (mathematics, applied physics, engineering graphics, computer drawings ergonomics, materials engineering, regional industry, information technology), mechanics engineering subjects (Statics and kinematics, dynamics, materials mechanics, measurements, machinery and machinery components, technological equipment , hydraulics and pneumatics, construction basics) and additional knowledge from the field of electronics and electrical engineering (Basics of Electronics and Circuits, Programming Basics, Applied Electro-technics, Sensors, Controllers, Automatic Control Theory). Bachelor thesis consists is 12 credits. Professional practice is 15 credits. Specialization Robotics Systems Control acquires knowledge about industrial robots and their programming (Power Electronics, Robot Control and Programming, Robot Project Design, Robotic end effectors) Specialization Mechanical Systems Design involves knowledge about materials processing and designing mechanical equipment (computer design, materials processing using cutting technology, machine manufacturing technology, computer systems analysis of mechanical systems).
Specialisations:
Robotics Systems Control. Graduates of this specialization know how to manage and program robotized technological processes and operates modern technological equipment. Mechanical Systems Design. Students of this specialization have deeper knowledge in materials processing are capable of designing more sophisticated mechanical equipment.Robotics Systems Control. Graduates of this specialization know how to manage and program robotized technological processes and operates modern technological equipment. Mechanical Systems Design. Students of this specialization have deeper knowledge in materials processing are capable of designing more sophisticated mechanical equipment.
Optional courses:
It is possible to deepen the acquired knowledge by choosing a specialization.It is possible to deepen the acquired knowledge by choosing a specialization.
Distinctive features of a study programme:
Along with the knowledge and skills from field of mechanics engineering, graduates acquire the basics of electronics and electrical engineering. If graduates choose Robotics Systems Control specialization, they gain knowledge and skills needed in modern industry.
Access to professional activity or further study:
Access to professional activity:
Specialization Mechanical Systems Design. The gained qualification enables to work as a design enginneer, technologist, head of subdivision, in the enterprises of mechanics, equipment, furniture, and other repair or manufacturing enterprises, in state and non-governmental organisations, also to administer, prepare and implement various national and international projects and programmes. Specialization Robotics Systems Control. The gained qualification enables to work as a design enginneer, enginner of automated-robotized systems , head of subdivision, in variuos manufacutirng or repairing enterterprises , in state and non-governmental organisations, also to administer, prepare and implement various national and international projects and programmes.
Access to further study:
The bachelor has the right to enter the second cycle studies.
