Fifty years of Polish Hydroacoustics

• Autorzy: Kozaczka E.
• Konferencja: International Symposium on HYDROACOUSTICS AND ULTRASONICS EAA Symposium (formerly 13th FASE Symposium) Gdańsk-Jurata, 12-16 May 1997
• Języki publikacji: EN

Abstrakty

EN

Scientists from different research centers have the opportunity to meet and to discuss the scientific problems at the Symposia on Hydroacoustics. They have been organized annually since 1984 by groups from the Technical University of Gdańsk and the Naval Academy. They are visited by 80-lO0 participants on average (both from Poland and abroad) who present about 40 papers.

• Wydawca: Polskie Towarzystwo Akustyczne. Oddział Gdański
• Czasopismo: Hydroacoustics
• Rocznik: 1997
• Tom: Vol. 1
• Strony: 3--11
• Opis fizyczny: Bibliogr. 78 poz.

Twórcy

autor

Kozaczka E.

• Naval Academy 81-919 Gdynia, Poland

Bibliografia

• MONOGRAPHIES
• [1] E. Kozaczka, Introduction to the theory of nonlinear hydroacoustics, Naval Academy Press, 1987
• [2] E. Kozaczka, G. Grelowska, Nonlinear properties ofwater, Naval Academy Press, 1996
• D.SC. DISSERTATIONS (HABlLITATIONS)
• [1] A. Oyka, Linear deconvolutionaI fiItering with reference to signaIs of finite duration., Technical University of Gdańsk, 1990 (in Polish)
• [2] M. Holec, Hydrometeorological safety ensurance of ships on sea, Naval Academy Press, 077/A, Gdynia, 1983(in Polish)
• [3] Z. Klusek, Sound propagation conditions in the Southem Baltic Sea, Rozprawy i Monografie 10 PAN, 1/1990,(in Polish).
• [4] E. Kozaczka, Investigations of underwater acoustic disturbances generated by a ship propeller, Naval Academy Press, Gdynia, 1978 (in Polish)
• [5] H. Lasota, Etude du champ acoustique des sources planes dans le domaine temporei, University Vallencienne - France, 1987
• [6] A. Orłowski, Application of acoustic methods for investigations of distribution of fish and seattering layers on the background of the sea environment, Sea Fisheries Institute in Gdynia, J 989 (in Polish)
• [7] B. Piwakowski, Contribution a la theorie de la repouse impulsion ella de diffraction, University Vallencienne, France, 1991
• [8] R. Salamon, Theory of wideband hydroacoustics transducers, Technical University of Gdańsk, 1990 (in Polish)
• [9] A. Stepnowski, Theory and techniques of hydroacoustics methods of estimation of fish populations and target strength, Technical University of Gdańsk, 1992 (in Polish)
• ARTICLES AND PAPERS
• [1] J.Burczyński, A. Stepnowski, R.Salamon, W. Martin, The hydroacoustic system on RlV "Profesor Siedlecki" and its use in fish stock assessment by integration of thin depth layers. Rapp. P.-v Reun. Cons. Int. Explor. Mer, 170: 142-151. Fevrier 1977.
• [2] B.Delannoy, H. Lasota, C. Bruneei, R. Torguet, E. Bridoux, The infinite planar baft1es problem in acoustic radiation and its experimental verification. 1. Appl. Phys. 50, 1979
• [3] N.Gorska,The role of the interference effects of waves seattered at individual targets in the plankton echosounding, Proceedings of the 3rd European Conference on Underwater Acoustics, Heraklion, Crete, 1996, vol.1, 105- 110.
• [4] G.Grelowska, Non-linearity parameter B/A of the low-salinity seawater, European Conference on Underwater Acoustics, Luxembourg, 1992.
• [5] Z.Jagodziński, On the adequacy of equivalent circuits for piezornegnetic transducers, Acustica, vol. 21, 5, 283-287,1969
• [6] Z.Jagodziński, Mechanical or Electromechanical resonance?, Acustica, vol. 23, 355-361, 1970
• [7] Z.Jagodziński, The radiation efficiency of ultrasonic transducers, Archives of Acoustics, 2, 151-167,1972
• [8] Z.Klusek, J.Tęgowski, J.Szczucka, A.Śliwiński, Characteristic properties of bottom backscattering in the South Baltic Sea at ultrasound frequencies, Oceanologia 1994, 36(1), 81 -102.
• [9] Z.Klusek, A.Śliwiński, l. Tęgowski, Characteristic Properties of Bottom Backscattering in the South Baltic Sea, 2nd European Conference on Underwater Acoustics, Copenhagen 1994, vol.1, 105- 110
• [10] Z. Klusek, Correspondence between the sea noise spectrum and the spectrum of naturaI surface noise, Oceanologia 1979, 11,41-48
• [11] Z.Klusek, The effect of internal waves on the fluctuations of the noise field in the sea, Oceanologia i983, 14, 113-120
• [12] Z.KIusek, A. M. Sutin, A. L. Matwiejew, A. I. Potapow, Observation of nonlinear scatteririg of acoustical waves at sea sediments, Acoustics Letters 1996, vol. 18, No. 11, 198-203
• [13] Z.Klusek, Linear and nonlinear sound scattering from subsurface bubble layer, Proceedings of the Third European Conference on Underwater Acoustics, Heraklion, Crete, 1996, voI.2, 1173- 1178
• [14] A.Kołodziejski, E. Kozaczka, A broad-band source of hydroacoustic disturbances, Archives of Acoustics, 21, 2, 197-210, 1986
• [15] E.Kozaczka, A study of the underwater acoustic disturbances produced by a ship propeller, Archives of Acoustics, 13,2, 121-139, 1978.
• [16] E.Kozaczka, Z.Dolny, Application of the power cepstrum to determine the differences in arrivaJ time between pulses in a duet, The International Conference of Noise Control Engineering, 255- 258, Warszawa, 1979.
• [17] E.Kozaczka, Sound radiation produced by a ship propeller, Archives of Acoustics, i4, 3, 221-243, 1979.
• [18] E.Kozaczka, A pulse source ofstrong underwater acoustic disturbances, Archives of Acoustics 15 4, 323-331, 1980.
• [19] E.Kozaczka, Acoustical effects generated by a cavitating ship propeller, Archives of Machine Engineering, TXXIX, 2, 167-186, 1982
• [20] E.Kozaczka, A.Kołodziejski, Investigation of both eigenvalues and free vibrations of the cylindrical shell in water, Proceedings of FASE Symposium, Madrid, 1987.
• [21] E.Kozaczka, Noise produced by the cavitating ship propeller, VI Symposium on Nonlinear Acoustics, Nowosybirsk, 1987.
• [22] E.Kozaczka, G.Grelowska, Jnvestigation of nonlinearity wave propagation in water, Archives of Acoustics, No.1, 77-87, 1992.
• [23] E.Kozaczka, J.Fortuna, Review of acoustical methods of probing the atmospheric boundary layer, Archives of Acoustics, No 4, 453-510, 1992.
• [24] E.Kozaczka, Measuring of the underwater noise produced by a ship by means of the intensity method in the shallow sea, Proceedings of Conference Undersea Defence Technology, 518- 520, Cannes, 1993.
• [25] E.Kozaczka, G.Grelowska, Nonlinearity parameter BIA of the lew-salinity seawater, Archives of Acoustics, No 2, 259-269,1994.
• [26] E.Kozaczka, S.Czarnecki, Investigation of underwater noise radiated by a ship in shallow water, Proceedings of Conference Undersea Defence Technology, 502-504, London, 1994.
• [27] E.Kozaczka, G.Grelowska, Application of piezoelectric transducers for parametric sources, Proceedings of 8th Piezoelectric Conference PIEZO'94, Tele and Radio Research lnstitute, 176-187,1995.
• [28) E.Kozaczka, S.Czarnecki, Directivity pattern of underwater noise radiated by a ship in shallow water, Proceedings of Conference Undersea Defence Technology, 86-90, Cannes, 1995.
• [29) E.Kozaczka, G.Grelowska, P.Bittner, The influence of Vistula water on thermodynamic and acoustic parameters of the Gulf of Gdańsk, Oceanologia, 37/2, 1995.
• [30] E.Kozaczka, Radiation of acoustic waves by a cavitating ship propeller, Proceedings Forum Acusticum 1996, Antwerpia, Acta Acustica, vol. 82, Suppl.1, s.259.
• [31) E.Kozaczka, G.Grelowska, Investigation of the nonlinearity parameter B/A in the South Baltic Sea, Proceedings of the Conference 14th International Symposium on Nonlinear Acoustics, 88-93, Nanjing, 1996.
• [32] E.Kozaczka, L.Milanowski, A.Komorowski, S.Czarnecki, The application of ship hydrodynamics field distribution for its localisation, Proceedings of the Conference Undersea Defence Technology, 394-397, London, 1996.
• [33] E.Kozaczka, W.Kiciński, Classification of underwater noise by Iinear discriminant functions, Proceedings of the Third European Conference on Underwater Acoustics, Vol.II, 1135-1139, Heraklion, Crete, 1996.
• [34] H.Lasota, B. Delannoy, Time-Domain Analysis of Wave Propagation, Diffraction and Radiation. Acoustical Imaging vol. 14 p. 635, Plenum Press, New York & London, 1985
• [35] H.Lasota, R.Salamon, B. Delannoy, Acoustic diffraction analysis by the impulse response method. A line impulse response approach. 1. Acoust. Soc. Am. Vol. 76, p. 280-290, 1984
• [36] H.Lasota, R.Salamon, Application of Time-Space Impulse Response to Calculations of Acoustic Fields in Imaging Systems. Acoustical Imaging vol. 10 p. 493, Plenum Press, New York & London, 1982
• [37] H.Lasota, Diffraction of acoustic pIane waves: A time-domain analysis. J. Acoust. Soc. Am. Vol. 78, p. 1086- 1092, 1985
• [38] H.Lasota, Pressure and Velocity Spherical Waves. Acustica Vol. 79,1993
• [39] H.Lasota, Virtual Surface Sources and the Superposition of their Fields. Acustica Vol. 79, 1993
• [40] J.Marszal, Directivity pattern of active sonars with wideband signals. Acoustic. Imag., Plenum Press, N.Y., London, vol. 19, p. 915-919,1992.
• [41] R.S.Mitchell, A.Stepnowski, J.Drobnik. D.R Green, Real time signal processing techniques in a dual beam sonar system for fish stock assessment. Archives of Acoustics 13, 1988
• [42] M.Moszyński, A.Stepnowski, Using the discrete Mellin transform (MDT) and singular value decomposition (SVD) for estimation of fish target strength from acoustics echoes. Proc. 3rd European Conference on Underwater Acoustics. Heraklion, 1996
• [43] A.Muszyński, E. Kozaczka, A magnetical shortcircuit transducer, Archives of Acoustics, 4, 389- 402,1974.
• [44] A.Orłowski, Application of multiple echoes measurements for evaluation of sea bottom type, Oceanologia, 19, 1984,61-78.
• [45] A.Orłowski, Application of acoustic methods to correlation of fish density distribution and the type of sea bottom, Proc. LO.A. Vol II, Part 3 (1989),179-185.
• [46] A.Orłowski, Seasonal tluctuations of biomass distribution based on results of hydroacoustic surveys of the Polish fishery zone, Fisheries Research, (EIsevier Science Publishers B. V.), 8, 1989, 25-34.
• [47] A.Orłowski, Hydroacoustic characteristics of scattering layers the Northeast Atlantic Ocean, J. Acoust. Soc. Am. 88(1), July, 1990,298-309.
• [48] R.Salamon, F.Chinchurreta: Analyse piezoelektrischer Breitbandschwinger unter Anlehnung an die Differenzengleichtung. Acustica Vol. 67, p. 19-29,1988
• [49] R.Salamon, F. Chinchurreta: Signalmodell des pie~oelektrischen Schwingers. Acustica Vol. 66 p. 247-257,1988
• [50] R.Salamon: Entwurfrnethode fur piezoelektrische Breitbandschwinger mit Anpassungsschichten. Acustica Vol. 69 p. 163-174, 1989
• [51] A.Stepnowski, M.Azzali, J .Burczyński, J.Lenkiewicz, A.Partyka, M.Moszyński: A portable acoustic mappinglimaging system for assessing and monitoring of aquatic resources and environmental parameters. Acoustical Imaging Vol. 22, Plenum Press, New York & London, 1996
• [52] A.Stepnowski, J.Burczyński, M.Moszyński, J.Lenkiewicz, A.Partyka, ECHOBASE a portable geographic fishery research data base system. Marine Geodesy, vol. 19, No. 3, p. 269- 280,1996
• [53] A.Stepnowski, J.Burczyński, The analysis of the calibration constant in the hydroacoustic system of fish abundance estimation. Contributed Papers of Meeting on Hydroacoustical Methods for the Estimation of Marine Fish Populations, Cambridge, Vol. 2 Part a, 1979.
• [54] A.Stepnowski, A.C.Gucu, F.Bingel, Assessment of the pelagic fish resources in the Southern Black Sea using echo integration and dual-beam processing. Archives of Acoustics, Vol. 18, l, p. 83-114, 1993
• [55] A.Stepnowski, J.Lenkiewicz, J.Burczyński, M.Moszyński, A. Partyka, ECHOBASE II - a nevel portable Geographical Infonnation System for mapping and assessing of aquatic fishery resources. ICES International Symposium on Fisheries and Plankton Acoustics, Aberdeen, Book of Abstracts p. 12., 1995
• [56] A.Stepnowski, R.S.Mitchell, Ecolog II: a realtime acoustic signal processing system for fish stock assessment. Ultrasonics Vol. 28, 1990
• [57] A.Stepnowski, M.Moszyński, D.Bakiera, R.Komendarczyk, l.Burczyński, Visual real-time bottom typing system and neural network experiment for sea bed classification. Proc. 3rd European Conference on Underwater Acoustics. Heraklion, 1996
• [58] A.Stepnowski, R.Salamon, B.Piwakowski, Directional reception of broadband signaIs by means of ultrasonic transducer arrays. Ultrasonics, 1980
• [59] A.Stepnowski, J.Szczucka, L.Pankiewicz, Computer simulation of beam patterns for a sonar phased cylindrical array. Progress in Underwater Acoustics, Plenum Press, New York & London, 1986
• [60] A.Stepnowski, Analysis and implementation of hydroacoustic methods for estimation of high densities of fish in sea pens. Archives of Acoustics 18, 1993
• [61] J.Szczucka, Z.Klusek, Acoustic observations of seattering plankton layers in the South Baltic Sea, Proceedings of the 3rd European Conference on Underwater Acoustics, Heraklion, Crete, 1996, vol.1, 123-128
• [62] J.Szczucka, Numerical model of multiple sound scattering from gas bubbles in the sea, Archieves . of Acoustics 1995,20,2,191-205.
• [63] J.Szczucka, Acoustic detection of gas bubbles in the sea, Oceanologia 1989,28,103-113.
• [64] J.Szczucka, Problem of excess attenuation in acoustic measurements of gas bubble concentration in the sea, Archives of Acoustics 1994,19, 1,75-83.
• [65] J.Szczucka, Sound scattering from gas bubbles in the sea - numerical consideration of coherence and interaction effects, Proceedings of the 2nd European Conference on Underwater Acoustics, Copenhagen 1994, vol.1, 231-236.
• [66] J.Szczucka, Z.Klusek, A.Śliwiński, Seasonal and diurnal changes of biological patterns in the Southern Baltic Sea, Proceedings of the 2nd European Conference on Underwater Acoustics, Copenhagen 1994, vol.1, 273-278.
• [67] A.Śliwiński, Z.KIusek, M.Ostrowski, l.Szczucka, K.Groza, Ultrasonic signals backscattered from inhomogeneities of water column in the Southern Baltic Sea, Proceedings of the ULTRASONICS'93, Wien 1993,595-598.