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Industrial engineering and management
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Summary of the Profile
General Description:
Objective(s) of a study programme: 2018 02 01
To acquire the high skill specialists which have deep knowledge in engineering, management, operation activity, process and product development, as well as the complex knowledge and skill to research and practice in modern manufacturing and projecting organizations.
Learning outcomes:
Knowledge and Understanding:
A1 Integrated knowledge of engineering, innovations and modern production technologies and understanding of the methods for development of innovative products and technologies;
A2 Critical understanding of products and production technologies potential in national and international contexts and awareness of future developments;
A3 Knowledge of international business and production management, rules of financial market operations, industrial marketing and it's peculiarities.
Engineering Analysis:
B1 Is able to apply knowledge of engineering and management for solving qualitative and quantitative problems of known and unknown character, incompletely defined and having competing specifications;
B2 Is able to recognise and solve problems of newly emerging areas of production engineering, plan strategies and apply innovative methods of their solving;
B3 Is able to conceptualise engineering systems and processes of production engineering aiming for creation of added value;
B4 Is able to understand material‘s and energy saving, evaluate environmental requirements and safety at work.
Engineering Design:
C1 Is able to apply knowledge and understanding for designing solutions of interdisciplinary problems of industrial engineering;
C2 Is able to create new ideas and methods for design of industrial products and manufacturing processes;
C3 Is able to analyse and work with complex, technically uncertain or incomplete information about industrial processes.
Investigations:
D1 Is able to identify and obtain required information in various sources;
D2 Is able to plan and perform analytical, modelling or experimental research of problems of industrial engineering;
D3 Is able to process and interpret data of experimental, analytical research or analysis of practical cases and draw conclusions and recommendations;
D4 Is able to investigate possible applications of new production technologies and methods of management.
Engineering Practice:
E1 Is able to integrate knowledge of different areas of industrial engineering, use wide world outlook and handle complexity;
E2 Is able to understand the methods and methodologies applied in industrial engineering, has awareness of the possibilities and limitations, abilities to select proper engineering systems means, devices and software for the solution of the production problems;
E3 Has holistic approach in professional decisions, ability, knowledge of technical and non-technical implications of engineering practice.
Engineering Practice:
F1 Is able to work effectively independently and be a leader of an interdisciplinary team;
F2 Understands and has skills of projects management and business practise, management of risk and changes and understands their limitations;
F3 Is able to study, constantly improving professional skills and quality of activities;
F4 Has skills of effective communication and representation of the interests of companies and institutions on national and international level;
F5 Is able to evaluate ethical, social, economic and human health and safety content of engineering solutions, commit to professional ethics.
Activities of teaching and learning:
Material of the study module is gained both by activity in auditorium and individual work. Activity in auditorium includes lectures, group research and practical work. Individual work is comprised by study of theoretical material, preparation for lectures, group research and practical work, midterms and exam. It also includes preparation of homework, projects and other activities.
Study programme is accomplished by final degree project.
Methods of assessment of learning achievements:
Knowledge, abilities and skills, that the student will acquire during the course of the programme are graded continuously during semester and registered to databases according time table foreseen in the annotation of the course. Cumulative grading system is applied, when studies results are evaluated during intermediate assessments, and final grade sums up grades of intermediate assessments and exam (grade in ten-point scale).
The final degree project is defended in the public session of the studies’ branch qualification committee.
Framework:
Study subjects (modules), practical training:
The future graduates of this study programme study manufacturing planning and control, product development, industrial maintenance, modern management of organization, engineering operations strategy, managerial finance, industrial marketing and other subjects. In total, 16 subjects are studied in the programme.
The practice is not provided in the study programme.
Specialisations:
Optional courses:
24 credits of the study programme are intended to electives study subjects.
Distinctive features of a study programme:
A graduate has comprehensive knowledge of industrial engineering, economics and management, control of engineering operations, understands the multidisciplinary context of the engineering practice and international production, is able to critically evaluate, analyse, design and manage production technologies and processes, can form, conceptualize and solve unknown or incompletely described industrial problems, is able to apply methods of mathematical modelling, systematic analysis and design, and can lead team activities, composed of members with different background.
Access to professional activity or further study:
Access to professional activity:
The graduate can carry out research, designing, manufacturing and maintenance planning, management as well as other engineering work in various companies and organizations of scientific research, engineering service and technical support.
Access to further study:
The graduate has competition-based access to PhD studies in Technological sciences.
