Study programme Industrial mechatronics (priemyselná mechatronika)

Basic information

Study programme in national registry: Industrial mechatronics (priemyselná mechatronika)
Guaranted by: Faculty of Mechanical Engineering
Study field: Mechanical Engineering
Level of degree: 3
Form of study: present
Degree: PhD.
Length of study in years: 4
Professionally oriented: No
Joint study programme: No
Languages of delivery: english language, slovak language

Graduate profile

Description
A graduate of the Industrial Mechatronics study program in the third stage of university studies has knowledge in the field of mechanics, electronics, control, sensors, converters, actuators and other areas, which he can integrate into functional units with a synergistic effect. He controls the tools of scientific analysis, design, simulation and optimization of mechatronic systems. The graduate is able to work independently and as part of a scientific team and bring new knowledge to the field of science and practice.
Learning objectives
A graduate of the Industrial Mechatronics study program in the third stage of university studies will gain knowledge about the scientific methods of research and development of industrial mechatronics. The course is aimed at graduates of engineering or master's studies who are inclined to solve theoretical engineering-scientific problems in the fields of mechatronics, electrical engineering, electronics, mechanics, mechanical engineering, computer science and automatic control up to the level of artificial intelligence. The graduate will acquire knowledge, abilities and skills to analyze and think abstractly, and the ability to apply knowledge from individual scientific fields in solving technical and scientific problems, the ability to control modern analytical and numerical methods and methods of mathematical modeling and simulation tools and experimental methods. The graduate will acquire comprehensive theoretical knowledge and practical experience and master the methodologies of scientific work, and will prepare him for independent scientific work in areas synergistically cooperating with electrical engineering, mechanics, informatics, automation and control, measurement technology and sensor technology. He will acquire knowledge based on the current state of scientific knowledge and will contribute to new knowledge in this field through his own creative scientific activity. He will learn the principles of scientific work in the context of research-development-production-use-recycling, scientific problem formulation (technical assignment), legal and environmental aspects of new products, ethical and social aspects of scientific work, presentation of results, development of the field of study and contribution to practice. The acquired knowledge includes primarily selected articles from mathematics related to partial differential equations, matrix calculus, Laplace transformation, numerical methods, optimization methods, calculus of variations, statistical methods and regression and correlation analysis, etc. A significant part of the theoretical training consists of modeling of mechatronic systems, controlled oscillation of mechanical systems, experimental methods in mechanics, selected states from machine dynamics, theory of automatic control, control systems, sensors and sensor systems, motion systems, robotics, artificial intelligence and microsystem technology. A significant part of the theoretical preparation is the study of a foreign language.
Main learning outcomes
A graduate of the Industrial Mechatronics study program in the third stage of higher education has professional theoretical knowledge and methodological knowledge for the ability to solve complex tasks using professional theoretical and methodological knowledge. The graduate has the ability to identify, evaluate and solve scientific-technical problems and the ability to recognize the problem in time, correctly name it, assess it, choose the correct solution procedure, implement the intention and see it through to the end and then evaluate the result. He has the ability to independently work scientifically and come up with new ideas. Has the ability to use modern scientific procedures and tools in the design of products and processes. He also has the ability to use mathematical thinking to solve tasks and problems in solving scientific problems in research activities and also in the development of technical practice. The graduate has the ability to create solutions with the application of knowledge about engineering design and research activities (goals, structure, components, functions, properties, research and development. He can apply professional and scientific knowledge from technical, technological, managerial, economic, organizational, management and service sciences He can also create an analysis of the logical behavior of a product and a synthesis of a logical system, and apply theoretical knowledge and practical skills to solving optimization tasks of industrial mechatronics and create innovative solutions based on the results. The graduate has the ability to design and implement an engineering experiment for the identification of unknown parameters or the verification of product or process properties, the ability to create simulation models and solve simulation tasks of products and processes. The graduate has the ability to design structural nodes and units using CAx programs with the option of parametrizing models with subsequent application in simulation environments and controls tools for creating virtual prototypes. The graduate has the ability to create control and regulation subsystems and test them with virtual prototypes of mechatronic systems with the possibility of visualizing the activity of the virtual prototype. The graduate has the ability of teamwork and cooperation and the ability to participate actively and responsibly in group work in the creation of innovative solutions and has presentation skills and manages to create a whole range of presentations.
Professions
Professions for which the graduate is prepared at the time of completion.

Employability

Evaluation of the study programme graduates employability
Graduates apply: - in ensuring the operation of modern electromechanical, electrohydraulic and other mechatronic systems with computer control, devices and equipment belonging to the class of mechatronic systems and the production of their components, - in companies engaged in the construction of machines and robots, - in testing and in service, - and in the development of these systems and complexes, - PLC programmers, embedded system programmers. Graduates found employment in the following companies: Porsche Engineering Services, s.r.o., TBH Technik, VVU ZTS, a.s. Košice, EVPÚ a.s., Huisman Konstrukce s.r.o., TATRAVAGÓNKA, a. s., Honeywell -Transportation Systems - Garrett Motion Inc., KAMAX Holding GmbH & Co., Devion s.r.o., MORA MORAVIA, s.r.o., Robert Bosch, spol. s r.o., AMET Slovakia, a.s., KOSIT, Andritz Slovakia s.r.o., Wirecard Slovakia s.r.o., Process automation solutions s.r.o., Linxon Slovakia Engineering s.r.o., SENZOR, s.r.o., BSH Drives and Pumps s.r.o., SALIT.sro, Škoda Mladá Boleslav, MinebeaMitsumi, PHU Elektra , BROSE, T-systems, Kuenz - SK, s.r.o., U-shin, ECONS ENERGY a.s., ANDRITZ Slovakia s.r.o., Faurecia, Process Automation Solutions, Spinea, s.r.o., Magna PT s.r.o.,
Evaluation of the study programme quality by employers
Doc. Ing. Vladislav Maxim, PhD., manager of research activities, Kybernetes, s.r.o. a) I agree b) I agree c) I agree d) I agree e) I agree f) I agree g) I agree In our company MDJ, s.r.o. and Kybernetes, s.r.o. several graduates of Industrial Mechatronics and Industrial Automation second and third degree study programs are working. All these graduates have an excellent knowledge base and also possess practical skills and habits. Newer and more modern components and modules are coming to the market and it is necessary for them to continue their education, which they have no problem with. It is often necessary to consult with customers and suppliers also in English, and no shortcomings were found in this regard either. All graduates demonstrated their willingness to work in a team with other workers. Three employees are currently studying in the third degree of study in an external form, so some of our employees are currently also students in this study program. Ing. Jaroslav Rusnák, branch manager of TBH Technik, s.r.o. a) I agree b) I agree c) I agree d) I agree e) I agree f) I agree g) I agree Several employees from the Industrial Mechatronics study program work in our company, and we also cooperate with students on the Pneumobil student project. Doctoral students also participate in every project, who actively work on the concept but also on the realization of the pneumomobile and also participate in the pneumomobile competition itself. In the future, I propose to orient the topics of doctoral dissertations to this area, as the development of alternative drives is extremely topical and important at this time.

Structure and content of the study programme

Suggested study plan in the MIAS portal

Current academic year plan and current schedule

Current academic year plan
Current schedule: MAIS portal

Persons responsible for the study programme

Person responsible for thequality of the study programme: prof. Ing. Michal Kelemen, PhD.
List of persons responsible for the profile courses: Study advisor: doc. Ing. Ľubica Miková, PhD.
Student representatives: Ing. Leo Brada
Study department

Spatial, material, and technical provision of the study programme and support

List and characteristics of the study programme classrooms
Laboratories of the Mechanical Engineering Faculty of TU in Košice: www.sjf.tuke.sk Laboratory of the Department of Industrial Automation and Mechatronics: - PK8-L1 Automation Laboratory. Web: http://www.sjf.tuke.sk/km/sk/vyskum/laboratoria/20-frontpage/424-laboratorium-automatizacie - PK8-L2 Learning Center. Web: http://www.sjf.tuke.sk/km/sk/vyskum/laboratoria/20-frontpage/425-vyucbove-centrum - PK8-L3 Laboratory of pneumatic systems. Web: https://www.sjf.tuke.sk/kr/sk/veda-a-vyskum/labaky/pneumatika - PK8-L4 Laboratory of industrial robotics. Web: https://www.sjf.tuke.sk/kr/sk/veda-a-vyskum/labaky/lab-robotiky - PK8-L5 Laboratory of mechatronics and service robotics. Web: https://www.sjf.tuke.sk/kr/sk/veda-a-vyskum/labaky/lab-sr - PK8-L6 Mechatronics Laboratory. Web: http://www.sjf.tuke.sk/km/sk/vyskum/laboratoria/20-frontpage/426-laboratorium-mechatroniky - PK8-L7 Prototype laboratory. Web: http://www.sjf.tuke.sk/km/sk/vyskum/laboratoria/20-frontpage/427-prototypove-laboratorium
Characteristics of the information provision
Access to study literature and information databases is provided through the TUKE University Library: http://www.lib.tuke.sk/Library/Home/DigitalLibrary The library fund of UK TUKE consists of its own funds (books, scripts, anthologies, magazines, theses and electronic media). In 2022, the library fund consisted of 172,878 book units. The annual addition to the library is over 3,000 book units. The study room contains basic and supplementary study literature, magazines, anthologies, encyclopedias, language and educational dictionaries. Users have free access to them. As part of the lending services, users borrow approximately 5,000 book units annually. The university library has barrier-free access to 2 elevators and 2 barrier-free toilets. There are 650 study places and more than 300 places with electrical sockets for charging laptops and mobile phones. The library has 32 desktop computers with Internet connection, intranet, Wi-Fi network and access to databases of electronic periodicals. Through the library's Copycenter, students have access to printing and reprographic services provided on 12 printers, 3 of which are large-capacity for oversized printing. The library also has its own digitization workplace with a scanning robot, as well as a book scanner for the public, which is located in the study room. Currently, the library fund is being built not only on a physical level (print and USB, CD, DVD), but also a repository of digitized books from the library fund on the MediaINFO platform, containing over 600 titles, is being developed. Access to information technologies is ensured through ÚVT TUKE: https://uvt.tuke.sk/wps/portal/uv/software
E-learning
The Department of Industrial Automation and Mechatronics uses the Microsoft Teams system for online access and teaching, where all information regarding teaching is made available.
Institution partners
B&R Industrial Automation GmbH represented by B+R automatizace, spol. Ltd. - organizational unit Trenčianska 17, 915 01 Nové Mesto nad Váhom, Košice branch ABB represented by the Košice organizational unit - ABB Košice TBH Technik, s.r.o. - organizational component technical office Košice Balluff – organizational component Balluff Slovakia s.r.o. MESSER TATRAGAS, spol. Ltd. Minebea Slovakia s.r.o. Mitsubishi Electric Europe BV Process Automation Solutions GmbH - Process Automation Solutions s.r.o. Siemens s.r.o. M-D-J, spol. with r. about. KYBERNETES, s.r.o. AVENTICS GmbH - Emerson Electric Co. Fanuc – organizational component of FANUC Slovakia s.r.o. SIMAP GROUP, a.s. HYPROmill s.r.o. Schunk GmbH & Co. - SCHUNK Intec s.r.o. SMC Corporation - SMC Industrial automation, spol. with r. about. VENIO, s.r.o.

Admission procedures

Required abilities and necessary admission requirement
Admission procedures
Results of the admission process over the last period