V.Aristov, E.Lobanovs, R.Maliks, M.Celitans, J.Simanovichs, S.Bondars, R.Gailis. Ultra-Wideband Pulse Radar Mounted on an Unmanned Aerial Vehicle for the Monitoring of Moving Objects. Automatic Control and Computer Sciences, 54(4), 396 - 405 pp. 2021.
Bibtex citation:
Bibtex citation:
@article{11488_2021,
author = {V.Aristov and E.Lobanovs and R.Maliks and M.Celitans and J.Simanovichs and S.Bondars and R.Gailis},
title = {Ultra-Wideband Pulse Radar Mounted on an Unmanned Aerial Vehicle for the Monitoring of Moving Objects},
journal = {Automatic Control and Computer Sciences},
volume = {54},
issue = {4},
pages = {396 - 405},
year = {2021}
}
author = {V.Aristov and E.Lobanovs and R.Maliks and M.Celitans and J.Simanovichs and S.Bondars and R.Gailis},
title = {Ultra-Wideband Pulse Radar Mounted on an Unmanned Aerial Vehicle for the Monitoring of Moving Objects},
journal = {Automatic Control and Computer Sciences},
volume = {54},
issue = {4},
pages = {396 - 405},
year = {2021}
}
Abstract: This article describes a classic ground-penetrating radar, which includes a transmitter on two step-recovery diodes for the shock excitation of an ultra-wideband Vivaldi antenna, a discrete sampling receiver with data transmission via Ethernet mounted on a six-blade unmanned aerial vehicle, experiments and processing results of the obtained signals for detecting the movement of small objects both in open space and behind a wall, as well as calculations to determine the thickness of the sounded walls in the case of a single measurement scenario.