Master's Degree in Industrial Management in Ostrava in Czech Republic

View all Masters Programs in Industrial Management 2017 in Ostrava in Czech Republic

Industrial Management

Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject. Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.

A Master’s degree of Industrial Management helps Graduates understand technological advance, and how to apply it to strategic decisions for an organization. It uses science and technology to solve these issues, which in turn provides business opportunities.

Czech Republic has a well-established and research based university education. This has made learning ini Prague one of the respected curriculum's in Europe since it cultivates the spirit of creativity and innovation among students.

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Master in Building Construction

Technical University of Ostrava
Campus Full time 3 semesters September 2017 Czech Republic Ostrava

The Study Branch Building Construction is prepared as a 1.5 year master’s study programme. It is focused on design and realisation of factory buildings, civil engineering, and transport construction. Education in theoretical disciplines, such as mechanics of materials, finite element method and dynamics, is extended during study. Gained knowledge is applied in structural subjects in the area of design... [+]

Masters in Industrial Management in Ostrava in Czech Republic. The Study Branch Building Construction is prepared as a 1.5 year master’s study programme. It is focused on design and realisation of factory buildings, civil engineering, and transport construction. Education in theoretical disciplines, such as mechanics of materials, finite element method and dynamics, is extended during study. Gained knowledge is applied in structural subjects in the area of design, assessment and application of concrete, masonry, steel and timber structures and bridges. Key Learning Outcomes Knowledge - wide knowledge and understanding of structural mechanics and principles of structural design -wide theoretical knowledge (theory of elasticity, numerical methods, structural reliability concepts) - understanding of possibilities, of conditions and of limits of used methods and principles Skills - resolve structural design problems with use of obtained knowledge - searching, sorting and interpretation of information’s needed for structural design task - use of basic research approaches (numerical modelling, experimental testing, data analysis) necessary to resolve of practical problems in structural design General Competencies - ability to independent decision making (including cases when only partial data are available) - team work coordination including taking of responsibility for decisions and results - ability to give arguments convincing arguments to both specialists and public (in area of structural design) - ability to make conclusions from team member opinions - ability to use all obtained knowledge Occupational Profiles of Graduates The Study Branch Building Construction is prepared as a 1.5 year master’s study programme following all bachelors’ study programmes. It is focused on design and realisation of difficult factory buildings, civil engineering, engineering and transport constructions. Education in theoretical disciplines, such as mechanics of materials, finite element method and dynamics, is extended during study. Gained knowledge is applied in structural subjects in the area of design, assessment and application of reinforced concrete, masonry, steel and timber structures and bridges according to national and European standards. Admission Requirements Determined by Dean, may include entrance examination, other formal documents. Graduation Requirement 90 ECTS Credits, Final state examination, Diploma thesis 1. Semester 1. year Winter semester Course Block: Compulsory Structural fire design Prestressed Concrete Metal and Timber Structures Structural Dynamics Finite Element Method Non-linnear and fracture mechanics 2. Semester 1. year Summer semester Course Block: Compulsory Concrete Structures Concrete Bridges Steel Bridges Metal and timber structures II Waterwork Constructions Underground and Geotechnical Constructions Computational systems for special structural problems 3. Semester 2. year Winter semester Course Block: Compulsory Precast concrete structures Diploma Project Environmental Impact Assessment Quality management of building structures Organization and Management of Building Up [-]

Master in European School for Brownfields Technical Redevelopment

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

The Master’s program of the European School for Technical Brownfields Redevelopment is an interdisciplinary 2 year study branch based on a combination of natural, economic and construction engineering sciences, including professional disciplines. The main aim of the branch is to prepare graduates to manage projects and work activities in the restoration and development of abandoned industrial areas, often called brownfields. [+]

Study Branch Mineral Raw Materials Branch Profile The Master’s program of the European School for Technical Brownfields Redevelopment is an interdisciplinary 2 year study branch based on a combination of natural, economic and construction engineering sciences, including professional disciplines. The main aim of the branch is to prepare graduates to manage projects and work activities in the restoration and development of abandoned industrial areas, often called brownfields. Teaching and education has a base in scientific disciplines such as mathematics, physics and chemistry. It is expected that a bachelor’s study graduate has such knowledge. The study plan is composed of the compulsory subjects and electives that enable tailoring studies according to interests and professional intentions. Individual courses are designed to give students theoretical and practical knowledge to the extent of master study. Theoretical knowledge from lectures is developed further in field work, seminars, colloquia and exercises. The case study solutions that are discussed and dealt with in the professional colloquium and practical field works have a significant role in the educational process. The case studies are created in order to help students develop professional, systematic and independent work. Key Learning Outcomes Knowledge Graduates are equipped with complex knowledge in the fields: Landscape and nature conservation, their components and functions, Technical restoration of functions of landscape segments, Environmental assessment of brownfields, Civil engineering and technical assessment, Economical and socio-economical assessment, Remediation and regeneration of areas, Consultancy and expert activities and Environmental protection and design. Graduates are able to use their knowledge and attainments from particular sphere for solving the problems of the brownfields in the urban area and open countryside. Skills On the basis of the acquired theoretical knowledge a graduate is capable of identifying, sorting and interpreting information related to brownfield redevelopment. During their studies students deepen their skills in laboratory, experimental and field tasks and consequently can work with maps and local plans, legislation, they can propose solutions for decontamination and remediation of brownfields or analyse and produce data in a GIS. General Competencies Graduates become independent experts who can make responsible decisions and understand the wide range of issues related to the problems of brownfields. They are able to build and lead a professional team and work in it. According to evolving context and available resources they are able to define the terms of reference for professional activities, coordinate them and to bear ultimate responsibility for the results. Graduates are able to clearly and persuasively communicate their own expert opinion with professionals and the general public, they are able to express themselves verbally and also in specialized press. Of course there is a continuous professional development, acquisition and use of new knowledge in the field. Master's degree graduates will be also able to independently and responsibly solve the ethical problems. Occupational Profiles of Graduates The study branch combines natural, economic and construction-technical sciences, and related disciplines in the field. The major aim of the studies is to prepare graduates to manage project and work activities in the field of redevelopment of abandoned industrial areas such asbrownfields. The instruction builds upon the knowledge of mathematics, physics and chemistry. The theoretical knowledge from lectures is expanded with learning practical skills within laboratory works, seminars, colloquia and field training. Solving case studies discussed and cooperated on within expert colloquia and practical field trainings make significant parts of the education process. The case studies are aimed to develop the topical expert focus of the studies and independent, systematic students' work. Admission Requirements Determined by Dean, may include entrance examination, other formal documents. Graduation Requirement 120 ECTS Credits, Final state examination, Diploma thesis Course Structure Diagram with ECTS Credits List of courses is available at the detailed branch description page 30 ECTS credit per semester. [-]