RESEARCH
AREAS OF RESEARCH
Leading the Way From Basic to Applied Innovative Research
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Turpis senectus amet tortor in sodates odio tettus. Pretium id amet, euismod sceteriscue vetit. Imperdiet senectus ornare augue donec cuis. Uttrices ut nist egestas eros, nam sceteriscue. Uttricies tacus, nutta cras eget dotor ptacerat. Et in nutta fetis pettentescue augue. Porttitor hendrerit congue morbi proin aticuam.
Turpis senectus amet tortor in sodates odio tettus. Pretium id amet, euismod sceteriscue vetit. Imperdiet senectus ornare augue donec cuis. Uttrices ut nist egestas eros, nam sceteriscue. Uttricies tacus, nutta cras eget dotor ptacerat. Et in nutta fetis pettentescue augue. Porttitor hendrerit congue morbi proin aticuam.
Recent Work
Neural Network-Based Multi-Target Detection within Correlated Heavy-Tailed Clutter
This work addresses the problem of range-Doppler multiple target detection in a radar system in the presence of slow-time correlated and heavy-tailed distributed clutter.
In this work, a deep learning-based approach is proposed for multiple target detection in the range-Doppler domain.
The proposed approach considers a unified NN model to process the time-domain radar signal for a variety of signal-to-clutter-plus-noise ratios (SCNRs) and clutter distributions, which simplifies the detector architecture and the neural network training procedure.
Acute Influence of Low-Power Pulsed Electromagnetic Field on Human Red Blood Cells
The growing need for fast communication in the radiofrequency range (RF-PEMF) raises the question of health risk assessment for humans and animals exposed to GHz frequencies. Among the observations supporting these concerns are potential pro-cancerogenic effects, interference with neuronal activity, and an increase in aggregability of RBCs, that may compromise oxygen delivery to the tissues upon exposure of humans to RF-PEMF. Molecular mechanisms of the interaction of EMF with living cells are poorly understood. This project focuses on the systematic
examination of the possible mechanisms of interaction of ELF-PEMF and RF-PEMF with human RBCs.
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