Ilja Merunka
Czech Technical University in Prague
39 Papers
96 Citations
Ilja Merunka is an academic researcher from Czech Technical University in Prague. The author has contributed to research in topics: Imaging phantom & Microwave imaging. The author has an hindex of 8, co-authored 39 publications.
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Papers
Open-ended coaxial probe technique for dielectric measurement of biological tissues: challenges and common practices
Alessandra La Gioia,Emily Porter,Ilja Merunka,Atif Shahzad,Saqib Salahuddin,Marggie Jones,Martin O'Halloran +6 more
- 05 Jun 2018
TL;DR: Each step of the coaxial probe measurement procedure is discussed, highlighting common practices, challenges, and techniques for controlling and compensating for confounders.
261
Microwave Tomography System for Methodical Testing of Human Brain Stroke Detection Approaches
TL;DR: A prototype of a laboratory microwave imaging system suitable to methodically test the ability to image, detect, and classify human brain strokes using microwave technology is presented, suitable for large-scale measurements with high variability of measured data for stroke detection and classification based on machine learning methods.
Instantaneous brain stroke classification and localization from real scattering data
TL;DR: This work presents a 2‐step Learning‐by‐Examples approach for the real‐time classification of hemorrhagic/ischemic brain strokes and their successive localization from microwave scattering data collected around the human head.
41
Does attempt at hearing preservation microsurgery of vestibular schwannoma affect postoperative tinnitus
Martin Chovanec,Eduard Zvěřina,Oliver Profant,Zuzana Balogová,Jan Kluh,Josef Syka,Jiří Lisý,Ilja Merunka,Jiří Skřivan,Jan Betka +9 more
TL;DR: The results underscore the importance of proper pre- and intraoperative decision making about attempt at hearing preservation versus potential for tinnitus elimination/risk of new onset of tinnusitus.
Microwave Non-Invasive Temperature Monitoring Using UWB Radar for Cancer Treatment by Hyperthermia
TL;DR: A novel method to noninvasively monitor temperature during thermotherapy for instance in cancer treatment using M-sequence radar technology to investigate the temperature dependence of reflectivity in UWB radar signal in gelatine phantoms using electrically small antennas is presented.