Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Today’s fast technological advancement in electronics and signal processing methods makes electronic systems, including sonars, obsolete very quickly. The Polish Navy seems to be particularly affected as its ships were built in the 1970s and 1980s. Researchers at the Gdansk University of Technology have developed a methodology for modernising Navy sonars which involves the use of new electronic sub-systems and modern, bespoke methods of digital signal processing. Thanks to that, the existing large and expensive ultrasonic transducers and their systems for deployment and stabilisation remain unchanged. Between 2001 and 2013 this methodology was used by the Gdansk University of Technology to modernise 26 sonars of different types for the Polish Navy. The projects have significantly improved the technical and utility parameters of the sonars, while keeping the expenditure at about 20% of the value of new equipment.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
167--180
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
autor
- Gdansk University of Technology, Faculty of Electronics Telecommunications and Informatics, Department of Marine Electronic Systems, Narutowicza 11/12, 80-233 Gdansk, Poland
Bibliografia
- [1] J. Marszal, R. Salamon, A. Stepnowski: Military sonar upgrading methods developed at Gdansk University of Technology, Proc. IEEE Oceans'05 Europe Conference, Brest 2005. [Electronic document] pp. 1-5.
- [2] R. Salamon, J. Marszal, L. Kilian, A. Jedel: New signal processing in a passive sonar with gradient antenna. Hydroacoustics 2000, Vol. 3., pp. 129-134.
- [3] R. Salamon, J. Marszal, A. Raganowicz, M. Rudnicki: Application of Fourier transformation in a passive sonar with gradient hydrophones. Proc. of the Fifth European Conference on Underwater Acoustics. ECUA 2000, Lyon, pp. 1115 –1120.
- [4] R. Salamon, J. Marszal, M. Rudnicki: Underwater acoustic system with small antenna for the detection and bearing of sound sources, Proceedings of 17th International Congress on Acoustics, Rome 2001, Vol. II [Electronic document] pp. 1-2.
- [5] J. Marszal, A. Jedel, Z. Ostrowski: Small antenna for a dipping sonar. Hydroacoustics 2001, Vol. 4., pp. 169-172.
- [6] R. Salamon, J. Marszal: Optimising the Sounding Pulse of the Rotational Directional Transmission Sonar, Proc. of the Sixth European Conference on Underwater Acoustic ECUA 2002, Gdańsk, pp. 295-300.
- [7] R. Salamon, J. Marszal: Optimising the Sounding Pulse of the Rotational Directional Transmission Sonar, Acta Acustica united with Acustica, Vol. 88, 2002, pp. 666-669.
- [8] A. Raganowicz, L. Kilian, Z. Ostrowski: Special forms of echo visual representation in anahead looking sonar. Hydroacoustics 2003 Vol. 5/6, pp. 47-52
- [9] R. Salamon, M. Rudnicki, J. Schmidt : General analysis of braodband signal spatial filtration, Hydroacoustics 2003 vol. 5/6 pp. 251-260
- [10] A. Raganowicz, R. Salamon, M. Rudnicki, L. Kilian: Visual Representation of the Effects of Spatial and Frequency Filters Applied in Passive Sonars, Hydroacoustics 2001, Vol. 4., pp. 281-284.
- [11] M. Rudnicki, A. Raganowicz, J. Schmidt : Acoustic Signal Processing in Passive Sonar System with Towed Array, Hydroacoustics 2008. Vol. 11, pp. 329-338.
- [12] R. Salamon, J. Marszal, W. Leśniak: Broadband Sonar with a Cylindrical Antenna, Acta Acustica united with Acustica, Vol. 92, 2006, pp. 153-155.
- [13] J. Marszal, J. Schmidt , R. Salamon, L. Kilian, A. Raganowicz, K. Zachariasz, Z. Ostrowski, A. Jedel, M. Rudnicki, Sikorko T., A. Schmidt, W. Leśniak: Modrnization of ASW sonar SQS-56 at Gdansk University of Technology, Hydroacoustics 2010. Vol. 13, pp. 191-196.
- [14] J. Schmidt , A. Schmidt: Implementation of the Digital Receiver in Multibeam Long- Range Sonar, Hydroacoustics 2013 VOL. 16, pp. 203-210.
- [15] W. Leśniak, J. Marszal, R. Salamon, K. Zachariasz, J. Schmidt : Method for improving multibeam sonar bearing accuracy, Hydroacoustics 2009. VOL. 12, pp. 99-108.
- [16] J. Marszal, W. Leśniak, R. Salamon, J. Schmidt : Electronic stabilization of beams in sonar with cylindrical array, Hydroacoustics 2006. VOL. 9, pp. 119-124.
- [17] A. Jedel, Kilan L., J. Marszal, Z. Ostrowski, R. Salamon: Dynamic control of the receiving beam horizontal cross-section in the side scan sonar. Hydroacoustics 2005. Vol. 8, pp. 69-76.
- [18] L. Kilian, A. Raganowicz, T. Sidorko: Visualization Forms in MCM Side Scan Sonar, Hydroacoustics 2010. Vol. 13, pp. 119-126.
- [19] J. Marszal, R. Salamon: Distance Measurement Errors in Silent FM-CW Sonar with Matched Filtering, Metrology and Measurement Systems, Vol. XIX (2012), No. 2, pp. 321-332.
- [20] J. Marszal, R. Salamon: Silent Sonar for Maritime Security Applications, ECUA 2012, Edinburgh UK 2012, pp. 1605 – 1612, also Acoustical Society of America, Proceedings of Meetings on Acoustics, Vol. 17, 070082 (2013).
- [21] J. Marszal, R. Salamon, L. Kilian: Application of Maximum Length Sequence in Silent Sonar, Hydroacoustics 2012, Vol. 15, pp. 143-152.
- [22] J. Marszal, R. Salamon, K. Zachariasz, A. Schmidt: Doppler Effect in the CW FM Sonar, Hydroacoustics 2011, Vol. 14, pp. 157-164.
- [23] R. Salamon, J. Marszal, J. Schmidt , M. Rudnicki: Silent Sonar with Matched Filtration, Hydroacoustics 2011, Vol. 14, pp. 199-208.
- [24] R. Salamon, J. Marszal: Doppler estimation method for moving target location, Hydroacoustics 2010, Vol. 13, pp. 225-234.
- [25] J. Marszal, R. Salamon: Multistatic Doppler sonar for man-made lakes and water-power plants antiterroristic protection, ECUA 2010, Istanbul Turkey 2010, pp. 1333 – 1339.
- [26] I. Kochańska, H. Lasota: Application of OFDM Technique to underwater Acoustic Data Transmission, Hydroacoustics 2011, Vol. 14, pp. 91-98.
- [27] H. Lasota, I. Kochańska: Transmission Parameters of Acoustic Communication Channels, Hydroacoustics 2011, Vol. 14, pp. 119-126.
- [28] I. Kochańska, H. Lasota: Measurements of Transmission Properties of Acoustic Communication Channels, Hydroacoustics 2012, Vol. 15, pp. 91-98.
- [29] I. Kochańska, H. Lasota: Investigation of Underwater Channel Time-variability Influence on the Throughput of OFDM Data Transmission System, ECUA 2012, Edinburgh UK 2012, pp. 970-977, also Acoustical Society of America, Proceedings of Meetings on Acoustics, Vol. 17, 070048 (2013).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-57d04e96-017e-4e74-b720-721d0d7ef8f7