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Industrial engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
The aim of the study programme is to train professionals in industrial engineering, to provide them the knowledge of development of engineering projects upon developing a capability to solve problems of industrial engineering in a creative and critical way, to assess the impact of the created implements of production on industry, society and environment, to integrate advanced technologies based on the principles of sustainable production upon applying the principles of lifelong learning.
Learning outcomes:
Knowledge
The knowledge of application of modern high technologies in designing, investigation and improvement of industrial systems.
The knowledge of research and innovations, the theory of reliability of industrial systems, numerical methods of investigation, modern technological equipment and the particularities of its operation.
Research skills
The capability to carry out research works and to develop innovative projects, to apply methods of the theory of reliability of industrial systems and numerical methods of investigation for solving problems of industrial engineering.
The capability to provide a critical & analytic survey of research works, to develop a plan of a scientific experiment and to perform the scientific experiment.
Engineering analysis
The capability to analyze the trends of developmment and the objects of industrial engineering, the safety and maintenance aspects, troubleshooting methods as well as methods of statistical surveys and diagnostics.
The capability to think in critical & constructive and creative way, to analyze, assess and improve technological processes upon applying qualitative and quantitative indicators, to form conclusions, to solve engineering problems, to present scientific information reasonably, clearly and correctly.
Engineering design
The capability to analyze technical objects in a professional, critical and constructive way, to form conclusions and to assess qualitative and quantitative information on the technological equiment and processes as well as to design individually new technical objects.
The capability to design technical objects upon applying modern software packages.
Engineering practice ability
The capability to assess the scientific information and the data from experimental tests obtained by various devices and methods used in the experiments, to select methods and means for assessing parameters of industrial systems, to process the data, to present the results in the appropriate way, to carry out simulation and analysis of industrial systems upon applying information technologies.
The capability to solve engineering problems, to present scientific and engineering information in a reasonable, clear and correct way, to apply the acquired knowledge for solving engineering problems, to use the acquired knowledge in interdisciplinary fields of professional activities and to apply new methods and information technologies for solving the arizing engineering problems.
Personal and social abilities
The capability to analyze, synthesize and assess the data required for studies, professional activities or implementation of innovations, to pass ethical and socially responsible decisions, to plan self-dependently the learning process, to assume a responsibility for improving the own activities and those of the subordinated staff, to assume a responsibility for critical assessment of strategic decisions in the sector of industrial engineering.
The capability to continue the studies purposefully and individually through lifelong learning, to provide conclusions based on logical knowledge in a clear and unambiguous way, to present the results of a work in writing or orally in a correct national language or at least one foreign language.
Activities of teaching and learning:
Lectures, seminars, discussions, individual and group assignments, presentation of results, individual written works.
Methods of assessment of learning achievements:
For the assessment of students' knowledge and skills, the ten grade proportional cumulative mark system (cumulative assessment) is used.
Framework:
Study subjects (modules), practical training:
Study subjects (modules), practical training: Technological Analysis of Products, Design and Control of Technology (with course project), Reliability of Mechanical Systems, Fundamentals of Research and Innovation, The Use of the Finite Elements Method in Continuum Mechanics, Theory of Engineering Experiment (with course work), Engineering Ecology, Process of the Development of New Products, New Manufacturing Processes (with course project), Automatizaton of Technological Preparation, Manufacturing Simulation (with course project), Products Quality, Master Graduation Thesis.
Specialisations:
The Industrial Engineering study programme has a specialization in industrial technology.
Optional courses:
There provided one free choice (but not less 3 credit).
Distinctive features of a study programme:
Industrial Engineering is in the place where growing and rapidly developing field of technology, it is relevant globally and nationally, therefore the need for highly qualified specialists will not decrease.
Access to professional activity or further study:
Access to professional activity:
The study programme is designed to prepare graduates of industrial engineering, personnel of machine-manufacturing enterprises, who are ready to independently make decisions and lead people who are capable of efficiently and expeditiously organizing and managing production processes taking place in the company, mastering research methods and performing research and processing their results, applying advanced and efficient metal processing technologies and scientific achievements in the industry.
After completing the study program, specialists will be ready to independently make decisions and lead people, will be able to efficiently and promptly organize and manage the production processes in the company, develop research methods and carry out scientific researches, analyze their results, apply advanced and effective production and management technologies and scientific achievements in the industry.
Will be able to work in the field of industrial production, organization and management. State-owned manufacturing companies and scientific and research establishments, joint-stock companies, private limited liability companies or individual enterprises in various positions. You will also be able to create successful self-development individual companies.
Access to further study:
After completing an industrial engineering study programme, studies can be continued in the field of doctoral studies in the field of technology in Lithuanian and foreign universities.
