Because of COVID-19 pandemic, IoT workgroup of Department of Cybernetics and Biomedical Engineering was approached by workers of Faculty Hospital of Ostrava if there is an option somehow to measure the concentration of oxygen in covid rooms. The reason was safety in these covid departments where intensive medical treatments of patients with hard going of the illness take place by oxygen therapy. There is a risk of high concentration of oxygen (O2) and then a possible fire or explosion.

The complex solution is based on the czech IoT technology IQRF when sensors communicate thanks to topology IQMESH and the transfer is secured by enccoding. By this the high robustness of wireless network is ensured. The sensor is autonomous, non-invasive, power supply is primary battery of 19 Ah capacity. On the base of measuring of own consumption the problem-free running is guaranteed for 5 years in case of each 5 minute measuring.

The developed solution is protected by an usable patter that can be placed on every department when the oxygen therapy is needed. The wireless sensors have a significant benefit for security of covid rooms mainly in that times when the epidemic was at the top and hospitals had to take care of hard covid cases.

 

+

No doubts FEI is my future. ...

I want to study at FEI, I want to submit application.

This unique research activity is financed Technological agency of the Czech Republic and three private companies. The project is planned into your years and two main phases. In the first one the aim is to create a simulator of fetal electrocardiogram (EKG) which will be able to make signals resembling to the ones of a pregnant woman. It is a follow-up to a previous research during which an special software generator of signals arose. This simulator is a part of phantom of fetal electrocardiogram that is patented by the research team.

The developed technologies will serve to model of electric activity of fetus´s heart and mother including risk conditions, various positions and gestational age of fetus, uterine contractions, multiple pregnancy etc. This machine can shift the testing of algorithms and monitoring devices because it will be designed to be compatible with current technologies used in medical care now. In future it can serve as a simulator of pregnant woman´s body for training of medical workers.

The technology of the phantom represents a necessary step for realization of prototype of home fetus monitor whose creation is the main aim in the second phase of the project. The home monitor based on fetal electrocardiography make a mother able to screen an unborn baby comfotably at home.  A continual monitoring can be used to catch better heart rhythm disorders (cardiac arrhythmia) or confirm, it means an adult issue so called EKG Holter. Important is that this examination is non-invasive, running on battery power, screening of signals is passive and the fetus as well as pregnant woman is not bothered by this.

+

No doubts FEI is my future. ...

I want to study at FEI, I want to submit application.

This research represents combination of experimental development and industrial research under the auspices of  consortium created by two participants (Tecpa s.r.o. a VŠB-TUO). The project is focused on research and development of innovative technologies of monitoring of heart and breath activities during magnetic resonance examination.

The aim of the project is the research and development of a multichannel pressure sensor system that is immune to an electromagnetic interference that arises during the magnetic resonance. Among other related expected results also belong a prototype of singlechannel sensor system, controllinf software as well as a complex full scale production.

Outputs of the research can make the examination thanks to MRI faster because there is no long preparation needy like ordinary techniques need (mainly cleaning and shaving places for attaching EKG electrodes). The output of project will be a simple solution in the form of a bed taht will be implemented into the pad of MR scaner. This way of activating magnetic resonance is simple and compatible witl all producers of scaners with varios intensities of magnetic pole.

 

+

No doubts FEI is my future. ...

I want to study at FEI, I want to submit application.

In cooperation with Faculty hospital of Ostrava – Ophthalmology we aret working on development of methods that have a potential to recognize automatically areas of retinal lesions from retinal pictures made by system RetCam 3. These automatic methods based on artificial intelligence have potential to improve quality and objectivity of diagnostics of retinopathy of prematurity (ROP) in context of analysis of retinal lesions.

In comparison with highly used method of machine learning that requires a training based on huge amount of data, our method uses so called online semisupervision classification. It means that the method learns to recognize retinal lesions directly during the running on the base of specific signs of retinal lesions without any special training that is time-consuming a lot.

The outcome of this model is detected retinal lesions with options of their quantification in time it enables monitoring of progress of this illness in time. At the same time the system can detect an optical disk that is used for referential object when we observe the progress of retinal lesions in time.

 

+

No doubts FEI is my future. ...

I want to study at FEI, I want to submit application.

The demonstrative model of computed tomography shows the principle of collecting data of real computed tomography used in medical practice. For showcase of principle the safe laser emitter is used that reys fall on row of detectors. The model has three levels of movement: rotation of gantry, shift of bearing in vertical as well as horizontal way. The parts are created by 3D print technologies that are strenghten by some threaded bars. The model is driven by a field-programmable gate array (FPGA) Cmod S6, thanks to it paralelismus for managing the model is enabled. In front of gantry there are addressable LED which display recorded data of detectors in real time. It is possible to see every single detection in different angles during examination.

Currently it´s working on a new model of computed tomograph. The model will be smaller (for its easier transport), all original functionalities will be kept and enriched with phantom reading by NFC, then scanning will be simulated by the provocation of already loaded inner structures of detecting model. The model has two modes:

  1. real scannig of model surface
  2. simulated scanning provoked by photos on the base of detecting phantom.

 

+

No doubts FEI is my future. ...

I want to study at FEI, I want to submit application.