Master's Degree in Technology in Ostrava in Czech Republic

View Masters Programs in Technology 2017 in Ostrava in Czech Republic

Technology

A master's degree is a postgraduate academic degree. One must already have an undergraduate degree to apply for a master's program. Most master's degree program would require students to complete a master's thesis or research paper.

Those interested in developing products and working with new processes might consider an advanced degree in technology. This program will allow individuals to incorporate science and engineering in a practical and innovative manner. A masters in technology, for example, will allow an individual to work in multiple fields which incorporate technology.

The Czech Republic, is a landlocked country in Central Europe. The country is bordered by Germany to the west, Austria to the south, Slovakia to the east and Poland to the north. Its capital and largest city, with 1.3 million inhabitants, is Prague.

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Master in Computational Sciences

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

This programme focuses on the education of experts in the field of supercomputing and the use of high performance computing in solving computationally demanding tasks in applied sciences, as well as technology. It has a unique advantage of its association with the IT4Innovations National Supercomputing Centre, one of Europe’s most powerful supercomputers, located on the University campus. This provides hands-on opportunity for the practical application of theoretical instruction. [+]

Masters in Technology in Ostrava in Czech Republic. Branch Profile This programme focuses on the education of experts in the field of supercomputing and the use of high performance computing in solving computationally demanding tasks in applied sciences, as well as technology. It has a unique advantage of its association with the IT4Innovations National Supercomputing Centre, one of Europe’s most powerful supercomputers, located on the University campus. This provides hands-on opportunity for the practical application of theoretical instruction. Key Learning Outcomes KNOWLEDGE Students will become familiar with various architectures of today’s supercomputers and will learn to program effectively, making use of computational resources to solve demanding practical problems. SKILLS The students will acquire skills in programming parallel applications and designing effective parallel algorithms. Additionally, four different specializations are available, each providing specific skills from the following domains: data analysis and visualisation, numerical parallel algorithms, computational physics and chemistry, and engineering applications. Emphasis is placed on developing skills of interdisciplinary dialogue, a reality of the modern workplace. GENERAL COMPETENCIES Students will gain corresponding training in the field of soft skills. Thanks to the wide range of international R&D projects, IT4Innovations develops students’ ability to work in international, multi-disciplinary teams. Occupational Profiles of Graduates Graduates of the Computational Sciences programme will find their career, for example, in R&D institutions using HPC tools in order to achieve objectives of their research work, and often running their own computational systems. There has recently been a significant increase in number of such companies demanding these... [-]

Master in Modern Metallurgical Technologies

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

The Master's Study Branch Modern Metallurgical Technology is designed as a modern study branch aimed at training professionals for current and highly sophisticated metallurgical technologies, covering in detail the issues of theory and technology of production, casting and processing of iron and steel or their forming, including the forming of non-ferrous metals and/or foundry of alloys based on both iron and non-ferrous metals. [+]

Study Branch Metallurgical Engineering Branch Profile The Master's Study Branch Modern Metallurgical Technology is designed as a modern study branch aimed at training professionals for current and highly sophisticated metallurgical technologies, covering in detail the issues of theory and technology of production, casting and processing of iron and steel or their forming, including the forming of non-ferrous metals and/or foundry of alloys based on both iron and non-ferrous metals. In addition to these specialization areas, all graduates receive knowledge from the field of technical materials, industrial furnaces, preparation of non-ferrous metals and alloys, methods of planning and quality enhancement as well as managerial economics. Theoretical knowledge is complemented with a number of additional laboratory and computing practical exercises, in which the current laboratory technology is applied, and which address tasks related to metallurgical processes and their modelling. Theses are mainly focused on the selected study branches, or also partially extend to related study branches, such as Thermal Engineering and Ceramic Materials, or Materials Engineering. The study branch has a unique position in the structure of study fields at Czech universities. Key Learning Outcomes Knowledge Graduates can characterize advanced and contemporary technologies of iron and steel production, foundry technology and forming technology of ferrous and non-ferrous metals. They have a good command of the technological principles of the iron and steel production, foundry technology and technology of materials forming. Based on their professional specialization, consisting of an appropriate choice of study courses, graduates are able to demonstrate a more profound knowledge... [-]

Master in Automation and Computing in Industrial Technologies

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

The Branch is focused to the exploitation of computers and automation of technological processes above all in the metallurgical industry by application of knowledge in the field of theory of automated control, integrated computer systems, modern methods of control with exploitation of artificial intelligence and applied informatics and control of technological aggregates and processes. [+]

Masters in Technology in Ostrava in Czech Republic. Study Branch Economics and Management of Industrial Systems Branch Profile The Branch is focused to the exploitation of computers and automation of technological processes above all in the metallurgical industry by application of knowledge in the field of theory of automated control, integrated computer systems, modern methods of control with exploitation of artificial intelligence and applied informatics and control of technological aggregates and processes. Key Learning Outcomes Knowledge advanced scientific methods of modelling, simulation and optimal control of dynamic systems, modern tools and techniques for designing and implementation of complex control systems based on programmable logic controllers, programming of information systems and modern control methods, detailed knowledge of industrial technologies, especially in the field of metallurgy and related technologies. Skills independent control of production and technological processes, particularly in the metallurgical enterprises ability of creative synthesis of gained technological knowledge in the field of metallurgy, knowledge of control methods and implementation of control and information systems, ability of independent analysis, design and implementation of control systems for technological processes especially in metallurgical industry field by means of application of modern computing, measurement and automation tools. General Competencies General competences within the scope defined by the national descriptors of the Czech qualifications framework with an emphasis on communication skills, management and organizational skills, ability to communicate in at least one foreign language, etc. Occupational Profiles of Graduates This unique engineering field of study follows on the bachelor’s study program and expands and deepens... [-]

Master in Nanotechnology

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

The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. [+]

Branch Profile The Master‘s Study Branch of Nanotechnology is the second level of nanotechnology study following upon Bachelor’s study. The study programme contains more advanced methods of the structural and properties’ study of nanomaterials, theoretical and experimental approaches. During the first year of study students may choose one of two orientations - physical or chemical. Both orientations have common fundamental theoretical and experimental subjects including modelling and computer design of nanomaterials. Key Learning Outcomes KNOWLEDGE The aim of the master‘s study of Nanotechnology is to provide advanced education of characterization and properties of nanomaterials. Students extend their knowledge of mathematics, physics and chemistry in specialized subjects as electron microscopy, magnetic and optic properties of nanomaterials. The programme includes study of the relationship between properties of nanomaterials and their structures and utility as well. Graduates will have gained detailed knowledge about modern methods of structure study (for example electron microscopy, atomic force microscopy etc.). SKILLS The graduates of Nanotechnology master‘s study can use specialized knowledge to solve practical problems. They can use advanced research methods in nanotechnology that allow them to obtain new information based on practice and theory. GENERAL COMPETENCIES Graduates are able to independently make responsible decisions to solve individual parts of a problem. They know how to solve practical problems with characterization and preparation of nanomaterials, can formulate the results of experiments and opinions of a research team in a report. They understand specialized literature and databases and can make use of this knowledge. Graduates are also able... [-]

Master in Mechatronic Systems

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

The aim of the study is to prepare graduates for research and development work, and design of mechatronic systems with applications in the various kinds of production and applied technologies. [+]

Masters in Technology in Ostrava in Czech Republic. Branch Profile The aim of the study is to prepare graduates for research and development work, and design of mechatronic systems with applications in the various kinds of production and applied technologies. Graduate profile includes methods for the integrated design of mechatronic systems which are composed from the mechanical and electronic subsystems, including actuators, sensors and control systems. Graduates are trained in computer aided modeling and computer simulation and design of control algorithms. Key Learning Outcomes KNOWLEDGE Graduates will have gained knowledge important for the design of mechatronic systems. SKILLS Graduates are able to analyse the dynamic properties of complex structured systems and use mathematical/physical modelling and simulation of dynamic systems. GENERAL COMPETENCIES The background from electrical, mechanical and control engineering allows graduates to work with complex structured systems and to consider the interaction of different dynamic subsystems in the design phase of the new mechatronic system, using the suitable control to achieve the required behaviour of the final system. Occupational Profiles of Graduates The multidisciplinary education is a great advantage for the work in different areas of engineering. 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. [-]

Master in Applied Electronics

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

Students specialize in either Commercial or Industrial Electronics complimenting a basic study of electrical engineering. There is a particular emphasis placed on a highly efficient education in order to teach students to think creatively and apply new knowledge in the creation of new technical pieces of work. [+]

Faculty of Electrical Engineering and Computer Science Study Branch Applied Electronics Branch Profile Students specialize in either Commercial or Industrial Electronics complimenting a basic study of electrical engineering. There is a particular emphasis placed on a highly efficient education in order to teach students to think creatively and apply new knowledge in the creation of new technical pieces of work. The instruction is focused on the practical, and facilitates development of distinctive diploma theses. Key Learning Outcomes - Knowledge Graduates have a broad and deep knowledge in the technical fields of this branch, which corresponds to the current state of the art. They understand the state-of-the-art theories, concepts and methods of the branch. They are able to apply knowledge from related branches in their own branch. Students of Applied Electronics acquires the necessary knowledge of mathematics, theory of electrical circuits, information technology, and special knowledge in the following technical fields: Applied Electronics Analogue and Digital Electronic Circuits Microprocessor Technology Semiconductor Power Systems Electric Regulated Drives Optoelectronics Measurement Technology Audiovisual Technology Construction of Electronic Devices - Skills Using their expert knowledge, a graduate is able to independently define and creatively deal with practical or theoretical problems within the branch. They can solve complex problems independently and creatively, using selected theories, concepts and methods of the branch, and apply some of the advanced research procedures of the branch to obtain new, original information. - General competencies: A graduate is able to make independent and responsible decisions in new or changing contexts of... [-]

Master in Computational Mathematics

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

Computational Mathematics has a distinct focus on the important areas of applied mathematics relative to other branches of Information and Communication Technology, which the students can use when dealing with practical problems in the workplace. [+]

Masters in Technology in Ostrava in Czech Republic. Faculty of Electrical Engineering and Computer Science Study Branch Computational Mathematics Branch Profile Computational Mathematics has a distinct focus on the important areas of applied mathematics relative to other branches of Information and Communication Technology, which the students can use when dealing with practical problems in the workplace. Students gain a solid base for a career, or can continue in a doctoral programme focusing on the development of new methods for computational solutions of engineering problems with particular application in R&D. Computational Mathematics is a branch of the study programme of Information and Communication Technology. Key Learning Outcomes Knowledge The graduates in this study programme possess a broad and deep state-of-the-art knowledge and understanding of the branch of information technology, and a practical knowledge of applied mathematics, along with the selected areas of application. The knowledge in mathematics acquired during the Master’s studies constitutes an appropriate theoretical basis for further doctoral studies. Skills The graduates in this study programme can search for, sort out and interpret the relevant information to solve a defined practical problem. They can also deal with complex problems independently and creatively, using selected procedures that make use of information and communication technology as well as applied mathematics. - General competencies: A graduate is able to make independent and responsible decisions in new or changing contexts or in a developing environment with respect to broader social consequences, to coordinate the operation of a team and bear ultimate responsibility for... [-]

Master in Computer Science and Technology

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

The Master’s course of Computer Science and Technology provides the students with an education designed to help them find employment mainly in the field of creation and administration of various extensive and complex software products, in the creation and administration of computational systems and computer networks, in the production of computers and their components, and finally, among others, in the fields of business and education. [+]

Faculty of Electrical Engineering and Computer Science Study Branch Computer Science and Technology Branch Profile The Master’s course of Computer Science and Technology provides the students with an education designed to help them find employment mainly in the field of creation and administration of various extensive and complex software products, in the creation and administration of computational systems and computer networks, in the production of computers and their components, and finally, among others, in the fields of business and education. Apart from the knowledge ensuring very good chances of employment in practice, the students are educated in relevant theoretical areas as well, which enables them to find employment in R&D as well as to continue their studies in the doctoral programme. Key Learning Outcomes - Knowledge In comparison with the Bachelor’s level, the Master’s knowledge of the preparation theoretical disciplines (e.g. mathematics, discrete mathematics, and theoretical informatics, logics) are deeper and broader. Moreover, the graduate is able to perform analyses. Also, there are more complex, theoretically demanding, or less frequent areas of informatics, such as the processing and analysis of data of various kinds, including multimedia data and very extensive data, systems implementing artificial intelligence, cognitive robots, systems of machine perception and recognition, computer modelling of various systems, designing of special (e.g. very powerful) computational systems. In the above mentioned areas, the graduate is capable of evaluation, and he/she also understands the elementary scientific methods used here. - Skills The graduates can design pieces of work of a large extent... [-]

Master in Control and Information Systems

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

The aim of the course is to cultivate engineers as specialists in the fields of automation, control systems, measurement, and sensors using cutting edge laboratories and expert instruction. The priority of the Branch is to teach students to approach technical problem solving creatively, and to deal with assignments in the field of measurement and control engineering independently and systematically – i.e. to acquire all skills that are necessary for work as an engineer. [+]

Masters in Technology in Ostrava in Czech Republic. Faculty of Electrical Engineering and Computer Science Study Branch Control and Information Systems Branch Profile The aim of the course is to cultivate engineers as specialists in the fields of automation, control systems, measurement, and sensors using cutting edge laboratories and expert instruction. The priority of the Branch is to teach students to approach technical problem solving creatively, and to deal with assignments in the field of measurement and control engineering independently and systematically – i.e. to acquire all skills that are necessary for work as an engineer. Key Learning Outcomes - Knowledge The graduates have detailed knowledge in the technical areas they acquaint themselves with over the course of their studies. The students can focus in the following specializations: - Information Systems in Controls. - Automation and Information Systems in Industry. - Virtual Instrumentation. - Measurement and Control Technology in Medicine. - Skills You will become an expert in an up-and-coming branch of engineering. We will teach you how to measure, evaluate and manage the world around you using a computer. Our cutting-edge laboratories are not only used for teaching but also for the students to deal with technical problems of both science and practice. The students will learn to present their achievements in practical, project-oriented instruction. Within the projects they are encouraged to work as a team, which is what employers often require. - General competencies: The branch of Control and Information Systems is multidisciplinary and pervades a whole range... [-]

Master in Electrical Power Engineering

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

A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. [+]

Faculty of Electrical Engineering and Computer Science Study Branch Electrical Power Engineering Branch Profile A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. The course is divided into five specializations: Transmission and Distribution of Electric Power, Generation of Electric Power, Electrical Power Engineering in Transport, Electrical Machines and Devices, Commercial Electrical Engineering, specializing in the following subjects - electrical power engineering of industrial and distribution networks, power plant equipment, electrical power engineering in transport, electrical machines and devices, and technological processes. Further, the department offers the following optional subjects – electromagnetic compatibility, diagnostics of electric equipment, theoretical electrical power engineering, transient events in electrification systems, designing electricity distribution networks, computers for measurement and diagnostics, protection and automation in distribution networks, control of electrification systems, and many others, see the syllabus. Key Learning Outcomes - Knowledge Graduates posses a thorough, state-of-the-art knowledge and understanding of theories, concepts and methods of the chosen specialization, either Transmission and Distribution of Electric Power, Generation of Electric Power, Electrical Power Engineering in Transport, Electrical Machines and Devices, or Commercial Electrical Engineering, s well as an understanding of the possibilities, conditions and limitations of applying the findings of the related areas. - Skills Graduates are able to independently define and creatively deal with... [-]

Master in Mobile Technology

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

Graduates gain experience in the field of information and communication technologies with a focus on the mobile networks. They can design, operate, modify and optimize mobile wireless networks, develop, and optimize applications for mobile devices, and have knowledge of mobile networks, radio technology and software designing of applications for mobile devices. [+]

Masters in Technology in Ostrava in Czech Republic. Faculty of Electrical Engineering and Computer Science Study Branch Mobile Technology Branch Profile Graduates gain experience in the field of information and communication technologies with a focus on the mobile networks. They can design, operate, modify and optimize mobile wireless networks, develop, and optimize applications for mobile devices, and have knowledge of mobile networks, radio technology and software designing of applications for mobile devices. Practical laboratory training is carried out in coordination and cooperation with experts of leading telecommunications companies which focus on providing mobile services such as T-Mobile and O2. Study also focuses on business needs and its incorporation in the design of appropriate mobile applications, both in the sphere of labor-service and areas of administration and management. Graduates have the potential to control the technical tasks related to the operation of mobile networks, and the design and implementation of customized solutions. Graduates are in strong demand as mobile network engineers and developers of software for mobile devices. Key Learning Outcomes - Knowledge A graduate has a deeper and broader command of theoretical disciplines such as mathematics, with an enhanced ability to perform analyses. Study covers more complex, theoretically demanding or less frequently practical areas of information and telecommunication technology, e.g. processing and analysis of data of various kinds. The graduate is able to evaluate the above mentioned areas and understands the basic scientific methods applied here. - Skills The graduates can design large scale projects (e.g. software products in the... [-]