The scientific activity of the Department of Measurement and Electronics covers all research areas presently developed within the electrical measurement specialization, with special focus on: mathematical modelling, simulations, designing and constructing measuring systems and their elements for industrial and laboratory purposes:
building of unique analog and digital measuring systems;
modelling and simulation of objects, systems and measuring systems;
modelling, simulations and designing of analog electronic systems for measuring systems
working out of new digital algorithms of measuring signals processing to be used for their compression, analysis, estimation of their parameters and characteristics and identification of objects generating these signals;
designing and investigation of measurement data fusion algorithms;
designing, investigation and implementation of algorithms for correcting dynamic properties of measurement chains;
designing and building systems for biomedical measurements;
real time identification of control objects;
measurements of traffic parameters;
measurement of electrical energy quality;
designing of specialized integrated system in VLSI technology;
designing and investigation of measuring microsystems.
Research projects presently realized at the Department of Measurement and Electronics:
R&D projects:
multichannel interface for measurement and stimulation of living neural networks with specialized integrated systems;
varying-structure system used for measuring traffic parameters;
new concepts of a galvanic isolator of analog measuring systems
Own research projects:
charge amplifiers in submicron technologies to be used in pixel architectures for digital imaging;
working out a measurement of impedance of equivalent power network based on natural variability of its loading
Supervisor's projects:
measures of voltage oscillations in a power network determined with Hilbert transform
International contracts:
works on modern detection techniques (international contract with Japan).
digital techniques of medical imaging with the use of X-rays (international contract with Slovak Republic)
development of Time-Over-Threshold integrated system for do reading out silicon detector bands (international contract with Germany)
Contracts with industry:
working out of a digital, single-channel GLOP localizer, performing a physical model and tests in laboratory and mining conditions
Statutory activity:
elaboration and verification of computer modelling of error characteristics and sensitivity of measuring systems and their elements
al. A. Mickiewicza 30
Pawilon B-1
30-059 Kraków
e-mail:
eaiib@agh.edu.pl