mgr inż. Marek Płotka
Employment
Keywords Help
- computer vision
- doppler
- electronically steerable parasitic array radiator (espar) antenna , direction-of-arrival (doa) , doa system calibration , received signal strength (rss) , wireless sensor network (wsn)
- fmcw
- indoor localization
- indoor positioning systems
- phase interferometry
- radar
- rf fingerprinting
- velocity measurement
Business contact
- Location
- Al. Zwycięstwa 27, 80-219 Gdańsk
- Phone
- +48 58 348 62 62
- biznes@pg.edu.pl
Contact
- marek.plotka@pg.edu.pl
Publication showcase
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A novel calibration method for RSS-based DoA estimation using ESPAR antennas
In this paper, we introduce a new calibration method that can successfully be used in direction of arrival (DoA) estimation using electronically steerable parasitic array radiator (ESPAR) antennas and employing power-pattern cross-correlation (PPCC) algorithm, which relies on received signal strength (RSS) values recorded at the antenna output port. Instead of the commonly used two-step approach, during which ESPAR antenna calibration...
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Measurement of distance, velocity and angle of arrival using FMCW-CW combined waveform
A procedure of tacking small flying object based on a general principle of FMCW and Doppler radar is presented. In order to increase measurement range, this technique uses active signal source on the moving object. For simultaneous measurements of distance, radial velocity and direction (AoA) as well as simplified synchronization a combined FMCW-CW waveform is proposed. The presented measurement system was realized and verified...
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RF Indoor Positioning System Supported by Wireless Computer Vision Sensors
In this paper the possibility of increase the accuracy of RF fingerprinting indoor tracking system by the use of additional information from simple vision system is examined. As the distances in signal space differs from ones in real environment the ambiguity in decision process of fingerprinting algorithm can occur when set of closest distances between tag and map points in signal space corresponds to big distances differences...
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