See all Applied Electronics Applied Physics Automotive Electronic Systems Biomedical Assistive Technology Biomedical Technology Communication and Information Technology Computational and Applied Mathematics Computer Science Computer Systems for Industry in 21 Century Control and Information Systems Design of Electrical Systems and Technologies Electrical Power Engineering
Word wall clock
The aim of the project was to create a word wall clock, the clock that shows the right time in words. For example: It is 10 o'clock.
Wireless IoT monitoring systems
Do you know that too much high concentration of oxygen in a room can cause an explosion or fire? Just three months took our scientiests from FEI to answer the demand of Faculty Hospital of Ostrava and designed a suitable connection, wireless technology as well as constructed solution for a sensor that is able to monitor an amount of oxygen in an atmosphere in the room.
Compex system for development in an area of a non-invasive monitoring of fetal EKG
Scientists from our facultly are a part of multidisciplinary team that is working on ongoing project dealing with development of solution in an area of a non-invasive monitoring of fetus based on electrocardiography. This research will improve a babies´ monitoring before their birth. The results will come in 2024.
Development of a Complex Sensor System for Effective Control of Magnetic Resonance Imaging
Scientists from our faculty are a part of multidiscipline team working on a research and development project from programme OP PIK realized between 2020 - 2023 with state support and focus on a field of medical engineering. The aim of the project is research and development of a system for monitoring cardiorespiratory activity during examination in MR, which does not require fixation on the patient's body. This solution promises an easy and fast preparation of a patient while maintaining the quality of the resulting image.
Autonomous camera testing – Total Quality Control (TQC) with artificial intelligence elements
Researchers from Department of Cybernetics and Biomedical Engineering take a participation in solution of project with ELVAC a.s. The aim of the project is to develop a prototype of testing machine for an absolute control of quality of products (TQC) realized by algorithms of machine seeing and technologies of robot automation.
Robots and their application
Robots are used in every area in industry today. Industrial companies want to enhance productivity and lower numbers of low quality employees - therefore they need more and more robots.
Control of product quality for automotive
A lot of producing companies require fast, accurate and mainly automatic product control. An example of project in which Department of Cybernetics and Biomedical Engineering and Department of Applied Mathematics participate is a development of robotic workplace for controling of construction accuracy and then setting of headlights.
Optical control of product quality
Optical control of product quality of camera systems is a technology that becomes more often and is a part almost every area of production for ensuring the quality of products. Examples that can be visually controlled is a material surface, size, shape of curvature of products, location and presence of some parts, flawlessness of construction, packing of medicals or food etc.
Digital twin of robotic and automatic technology
Virtualization is an distinct trend of current industry. Machines, products as well as processes are firstly designed virtually, then virtually tested and verified and after this they can be produced.
Development of sensor for Continental company
Measuring of high temperatures in working area of gas engine is an important part of every modern car. Correct measuring of temperatures helps to optimalize the combustion process of electronic control unit and thus to lower CO2 production but at the same time to enhance power of engine and save fuel.
Triple inverse pendulum
Have you ever tried a ride on Segway, Monowheel nebo Hoverboard? Do you know how selfbalanced or humanoid robot look like, for example Acrobot or Pendubot? Maybe you are wondering how these machines are managed or how they are made to be safe, stabilized and huge. Algorithms that are used for these systems, have common base in so called optimal managing. In practise you find another examples of usages of these algorithms for systems of similar characters. As instence we can mention wheel chair iBOT, leaning nozzle with cardan shaft in bottom of racket for stabilization of racket body, managing of technological parts of aircraft devices or ships.
