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Krystian Buszman
Krystian Buszman
Polish Naval Academy
Zweryfikowany adres z amw.gdynia.pl
Tytuł
Cytowane przez
Cytowane przez
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Improving the quality of magnetic signature reproduction by increasing flexibility of multi-dipole model structure and enriching measurement information
J Tarnawski, A Cichocki, TA Rutkowski, K Buszman, M Woloszyn
IEEE Access 8, 190448-190462, 2020
122020
The passive module for underwater environment monitoring
I Gloza, K Buszman, K Listewnik
Proceedings of 11th European Conference on Underwater Acoustics, 1787-1793, 2012
112012
Tracking underwater noise sources with the use of a passive method
I Gloza, K Buszman, R Józwiak
Acta Physica Polonica A 123 (6), 1090-1093, 2013
102013
Magnetic signature description of ellipsoid-shape vessel using 3D multi-dipole model fitted on cardinal directions
J Tarnawski, TA Rutkowski, M Woloszyn, A Cichocki, K Buszman
IEEE Access 10, 16906-16930, 2022
92022
The multi-influence passive module for underwater environment monitoring
I Gloza, K Buszman
Hydroacoustics 14, 47-54, 2011
92011
Measurement campaign and mathematical model construction for the ship Zodiak magnetic signature reproduction
J Tarnawski, K Buszman, M Woloszyn, TA Rutkowski, A Cichocki, ...
Measurement 186, 110059, 2021
82021
The calibration of hydroacoustic channel of mobile measurement module
K Buszman, I Gloza, R Jozwiak, K Listewnik
Proceedings of the 2nd International Conference and Exhibition on Underwater …, 2014
82014
The multi-influence passive module for underwater environment signatures
I Gloza, K Buszman
Hydroacoustics 14, 47-54, 0
8
The one–third–octave spectrum as a method of vessel identification
I Gloza, R Józwiak, K Buszman
Hydroacoustics 17, 2014
72014
Analysing the impact on underwater noise of changes to the parameters of a ship’s machinery
K Buszman
Polish Maritime Research, 2020
52020
Detection of floating objects based on hydroacoustic and hydrodynamic pressure measurements in the coastal zone
KB M. Gloza
Polish Maritime Research 27 (2), 168-175, 2020
52020
An analytical four-layer horizontal electric current dipole model for analysing underwater electric potential in shallow seawater
M Woloszyn, K Buszman, T Rutkowski, J Tarnawski, FJ Rodrigo Saura
Scientific Reports 12 (1), 8727, 2022
42022
Examination of acoustic wave propagation in real conditions
K Buszman
Hydroacoustics 16, 11--18, 2013
42013
Underwater acoustic investigation using sound intensity method
I Gloza, K Buszman
Forum Acusticum, Kraków, 2014
22014
The influence of the geographic positioning system error on the quality of ship magnetic signature reproduction based on measurements in sea conditions
J Tarnawski, K Buszman, M Woloszyn, B Puchalski
Measurement 229, 114405, 2024
12024
Capabilities to use passive measurement systems to detect objects moving in a water region
W Mironiuk, K Buszman
Archives of transport 68 (4), 2023
12023
Passive hydroacoustic method of detection and tracking object moving on the sea surface and floating in the depth
W Szymczak, K Buszman
Hydroacoustics 20, 2017
12017
Signals parametrization method of sailing vessels
K Buszman, I Gloza
Hydroacoustics 19, 27-36, 2016
12016
Sound intensity distribution as an underwater acoustic investigation process
I Gloza, K Buszman
Hydroacoustics 17, 57-62, 2014
12014
Examination of the co-operation between echosounder and motion sensor during sea trials
W Szymczak, K Buszman
Hydroacoustics 12, 217-226, 2009
12009
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