Curriculum modules

Curriculum: Robotics Engineering 2020/2021

2018 2019 2020

Module	Description
General Subjects
Robotics Engineering - Basic Subjects	42 ECTS credits Objectives: create a basis and prerequisites to acquire the chosen specialty. Learning outcomes: the student - Understands the legal regulations of environmental and occupational safety issues related to processing industry; - Is ready to actively participate in civil society and is tolerant to diversity of opinions; - knows the basis of mechanics and machine elements and is able to apply them according to the specialty; - knows the basis of kinematic schematics and knows how to calculate basic systems - has understanding of electronic, hydraulic, pneumatic systems and basics of automation. - has understanding of basics of robotics and programming - has an overview of the traits of the specialty; - gets an overview of occupational health and safety; - recognizes the main environmental problems and the main viewpoints in the sustainable solution to them; - has knowledge on technological materials, material technologies, material characterization methods and environmental impact. - has acquired the knowledge for using the most popular drawing IT and CAD softwares. - knows the basis of economics;
Robotics Engineering - Specialty Subjects	81 ECTS credits Objectives: acquiring field-specific knowledge and skills needed for working life. Learning outcomes: the student - knows and uses field-specific legislation, standards and technical norms; - Knows how to collect and analyse necessary work information and interpret it creatively - knows the principles of economy, regulations and principles in robotics and is able to use them in field-specific work; - knows how to compile production related reports in digital systems - knows how to use engineering basics of calculation in product development, designing and running technical systems; - shows initiative at starting projects, is able to participate in a development team. - knows the measurement techniques and the methods of quality control; - knows the basics of electrical machines and their control - knows industrial electrical machines, their use and implementation - knows construction of controllers, their modules and programming languages - is able to compile programs for machine and robotic systems - is able to create backups, version control m programs for machine and robotic systems - knows types of data connections, their security and implementation in industry and robotics. - knows elements of robotic systems, use, implementation and related calculations - knows basic methods of data analysis - knows principles of machine learning, its possibilities and limitations - is able to model solutions for robotics related problems and assess results. - is able to calibrate parameters of robotic systems and evaluate them according to quality requirements. - is able to use specialty related computer programmes; - uses accurate specialty terminology; - knows the principles of work safety on a specific enterprising level, has developed an attitude to implementing means of environmental impacts; - has an overview of necessary professional knowledge and practices to manage at the company and working environment.
Robotics Engineering - Optional Subjects	75 ECTS credits Objectives: enables to gain professional knowledge and skills needed for the working life. Learning outcomes: the student - is able to evaluate the need for additional knowledge and skills in working life and is able to utilize them; - has gained the basic knowledge and skills for participation in the work field; - has the social and team-working skills for participation in the work field; - is able to make decisions for specializing in the work field or studies. - has knowledge on technological materials, material technologies, material characterization methods and environmental impact. - has an ability to express topics on robotics in foreign language orally and in writing. - has an ability to understand information on robotics in foreign language - knows elements of automation systems and their use - knows the details of machine building related systems
Robotics Engineering - Internship	39 ECTS credits Objective: to enable the application and verification of the gained knowledge in a working environment. Learning outcomes: the student - is able to evaluate the actions of the team; plan, organize and develop activities in the changing working environment; - is familiar with the organizational culture and traditions and acts accordingly; - can implement the acquired knowledge and competencies in the production process; - is able to solve the project tasks, develop technological processes; - is able to analyse and solve the organizational problems that are connected to robotics - is able to formulate the company´s current problems and to find different solutions for them. - is able to make decisions in professional questions and solve upcoming problems; acts creatively - is able to use and compile technical documentation - has required social and IT skills for the working environment;
Robotics Engineering - Graduation Thesis	12 ECTS credits. Objective: enables the student to prove the acquired professional knowledge and utilize it in solving a field-specific theoretical and practical problem. Learning outcomes: the student - has a systematic overview about the specialty; - is able to formulate specialty related problems and to analyse them and find different solution possibilities concerning modern technology possibilities and economic efficiency; - possesses the communication skills and communication technologies required for work; - can implement the acquired knowledge and skills in professional work. - is able to collaborate constructively. - is able to evaluate his/her professional skills, expertise and the need of development all-around and systematically; - Understands the necessity of lifelong learning and is capable of developing himself professionally through independent self-improvement.