Scientific research is concentrated on non-invasive medical diagnostics and electronic monitoring of the environment. In detail:

• development of electroimpedance methods and its applications in non-invasive testing of living tissues such as impedance spectroscopy, electroimpedance tomography (EIT), development of measurement techniques, modelling of tissues and organs and reconstruction algorithms in EIT;
• development of medical diagnosis techniques on the basis of thermal process monitoring, infrared termography, infrared thermal tomography;
• development of new sensors:
• toxic gas based on solid state electrolytes;
• electrochemical sensors;
• humidity sensors;
• evaluation methods based on voltamperometric and impedance measurements;
• development of experiment planning methods for optimal medicine dosing and ecosystem supervising;
• development of medical image processing methods;
• development of Heath information system, implementation of DICOM, HL7 standards;
• development of ostheoporosis detection methods;
• development of cardiosurgery supervising methods;
• development of cancer detection methods;
• development of skin burns detection and automatic classification methods;
• development of brain activity diagnostics methods.

Main research:

Scientific Research

• Novel techniques of medical and environmental diagnostics

• Applications of active dynamic thermography for medical diagnostics
• Comparison of precision of estimates of the biomedical systems parameters acquired by means of correlation function using optimal excitation pattern with parameters that are commonly used in medicine
• Classification of skin burns based on impedance measurements methods
• Content-based medical data retrieval
• Application of impedance spectroscopy to measurement of properties of humidity sensors
• Modelling of electrical and thermal parameters of the skin
• Monitoring of the myocardium conductivity
• A reconstruction algorithm for objects which are characterized by complex material parameters.
• Extraction of unambiguous features in EEG
• Influence of magnetic field on mechanisms of ion transportation in electrolytes and its solutions