Bachelors in Engineering (Industrial Engineering)
VSB - Technical University of Ostrava
Key Information
Campus location
Ostrava, Czech Republic
Languages
English
Study format
On-Campus
Duration
3 years
Pace
Full time
Tuition fees
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Application deadline
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Earliest start date
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Introduction
Bachelors in Engineering (Industrial Engineering)
Are you a natural leader? Do you like to organize events around you? So join us. You will understand the basics of engineering technology, learn to design production systems and organize pre-production and production processes. In addition, we will prepare you for the work of an operations manager who is able to make independent and responsible decisions. Thanks to the study you will also gain knowledge regarding the assessment of production quality, product certification, demonstration of conformity and accounting. You will master the fundamentals of both general and business economics. You can be used in engineering and other industries in pre-production, development or research. You will not be lost as a production system designer, technologist, project manager or inspection and quality expert. In the financial world, you will succeed as a specialist in assessing the level of technology projects.
Admissions
Scholarships and Funding
Several scholarship options are available. Please check the university website for more information.
Curriculum
Semester 1
Compulsory
- Basics of Mathematics
- Fundamentals of Energy Processes
- Mathematics I
- Mechanical Engineering Fundamentals
- Physics I
- Structural Materials
- Technical Calculations
- Welding Fundamentals
- Work Transport and Logistics
Mandatory optional type B
- Czech Language for Foreigners a/I - mobility - exchange programs
- History of Science and Technology in Engineering
- Philosophy
- Political Science
- Sociology
Optional
- Basic Winter Sports Course 1.year
Semester 2
Compulsory
- Constructive Geometry
- Machine Operating, Diagnostics and Maintenance
- Mathematics II
- Properties and testing of materials
- Statics
- Technology of Machining
Mandatory optional type B
- Czech Language for Foreigners a/II - mobility - exchange programs
- English Language b/I for FS (pre-intermediate)
- English Language c/I for FS (intermediate)
- History of Science and Technology in Engineering
- Philosophy
- Political Science
- Sociology
Optional
- Basic Summer Sports Course 1.year
Semester 3
Compulsory
- Dynamics I
- Engineering Metrolgy
- Fluid Mechanics
- Graphic Systems
- Mathematics III
- Mechanics of Materials
Mandatory optional type B
- English Language b/II for FS (pre-intermediate)
- English Language c/II for FS (intermediate)
- German Language c/II for FS (intermediate)
- History of Science and Technology in Engineering
- Philosophy
- Political Science
- Sociology
Optional
- Basic Winter Sports Course 2.year
- MathCad
- Physical education 2.year A
- Team Work Principals
Semester 4
Compulsory
- Computer aided design I
- Control System Fundamentals
- Electrical Engineering
- Forming and Casting Technologies
- Machines Parts and Mechanisms
- Physics II
- Thermomechanics
Mandatory optional type B
- History of Science and Technology in Engineering
- Philosophy
- Political Science
- Sociology
Optional
- Basic Summer Sports Course 2.year
- Graphic Systems II
- Physical education 2.year B
Semester 5
Compulsory
- Basics of designing
- Industrial Engineering Controlled Practice
- Logistics in Industrial Enterprise
- Organization and Management
- Principles of Economics
- Strategic Management
Mandatory optional type B
- History of Science and Technology in Engineering
- Philosophy
- Political Science
- Sociology
Semester 6
Compulsory
- Industrial Engineering in Context
- Numerical Mathematics
- Principles of Marketing
- Products Certification
Mandatory optional type B
- History of Science and Technology in Engineering
- Philosophy
- Political Science
- Sociology
Program Outcome
Graduate's skills
Graduates of this specialization will be able to:
- ensure and organize technological preparation of production,
- design technological workplaces (design of machines and fixtures, material flow, workplaces continuity and ensure other technical conditions),
- to read technical drawings and to design the most efficient methods and procedures for manufacturing, assembly, assembly, and surface treatment,
- organize, manage and evaluate production and pre-production processes,
- to verify new production processes,
- establish quality control and technical testing arrangements and cooperate on production quality management,
- carry out technical supervision at workplaces,
- check compliance with technological procedures,
- apply tools of economic and financial management of the company,
- conduct marketing activities,
- apply managerial decision-making methods to find optimal solutions to problems,
- evaluate, improve and design business processes in industrial sectors (metallurgy, mechanical engineering, automotive),
- apply the basic legal, safety and hygiene rules necessary for the design and management of engineering undertakings,
- use industrial quality management systems,
- practically use the fundamentals of both general and business economics,
- address practical problems in the areas concerned,
- find, organize and interpret information for solving practical problems
- to use some basic research procedures of the field to the extent necessary to solve specific problems in the given areas.
Graduate's general competence
Graduates of this specialization are able to:
- to make independent and responsible decisions within the assigned tasks, projects,
- defend their work and their views on problem-solving,
- to coordinate the team's activities and take responsibility for their results,
- summarize clearly the views of other team members,
- on the basis of practical experience, independently acquire further expertise and skills,
- to complete theoretical knowledge of the field by independent study.
Program Tuition Fee
Career Opportunities
Graduate's employment
Graduates of this specialization will find employment in engineering and engineering departments of other industries in production preparation, development and research, as well as technologists, designers of production systems, project managers, operational technicians or specialists for quality control and quality management. In the business and financial sphere as specialists assessing the level of technology projects.