[1. P. Blondel, A. Caiti: Buried Waste in the Seabed AcousticImaging and Bio-Toxicity. University of Bath, UK, 2007]Search in Google Scholar
[2. J. Galloway, W. Collins: Dual frequency acoustic classificationof seafloor habitat using the QTC view. Oceans ‘98, Nice, France 1998.]Search in Google Scholar
[3. G. Grelowska, E. Kozaczka, Sounding of layered marine bottom- modeling investigations, Acta Physica Polonica A, Vol. 118, No. 1, 66÷70, 201010.12693/APhysPolA.118.66]Search in Google Scholar
[4. G. Grelowska, E. Kozaczka: Selected results of the parametricsoundings of the Gdansk Bay. Hydroacoustics V. 11, 105÷112, 2008]Search in Google Scholar
[5. G. Grelowska, E. Kozaczka, W. Szymczak: Methods of dataextraction from sub-bottom profiler’s signal. Hydroacoustics, 13, 109÷118, 2010]Search in Google Scholar
[6. G. Grelowska: The prevailing patterns of the sound speeddistribution in the environment of the southern Baltic. Archives of Acoustics, 25, 359÷368, 2000]Search in Google Scholar
[7. G. Grelowska, S. Kozaczka. W. Szymczak: Some methods of thesea bottom recognition. Hydroacoustics, Vol. 12, 69÷76, 2009]Search in Google Scholar
[8. G. Grelowska, E. Kozaczka, S. Kozaczka, W. Szymczak: Detection of Objects Buried in the Sea Bottom with the Use ofParametric Echosounder. Archives on Acoustics, Vol. 38, No 1, 99÷104, 201310.2478/aoa-2013-0012]Search in Google Scholar
[9. L. Hamilton, P. Mulhearn, R. Poeckert: Comparison ofRoxAnn and QTC-view acoustic bottom classification systemperformance for the Cairns area, Great Barier Reef, Australia. Continental Shelf Research 19, 1577÷1597, 199910.1016/S0278-4343(99)00020-5]Search in Google Scholar
[10. E. Kozaczka, G. Grelowska, S. Kozaczka: Images of the seabedof the Gulf of Gdansk obtained by means of the parametricsonar. Acta Physica Polonica A, Vol. 118, No 1, 91÷94, 201010.12693/APhysPolA.118.91]Search in Google Scholar
[11. E. Kozaczka, G. Grelowska, S. Kozaczka, W. Szymczak: Processing data on sea bottom structure obtained by means ofthe parametric sounding. Polish Maritime Research, 19, 4 (76), 3÷10, 201210.2478/v10012-012-0034-2]Search in Google Scholar
[12. K. Naugolnykh, L. Ostrovsky: Nonlinear Wave Processes inAcoustics. Cambridge University, Cambridge, 1998]Search in Google Scholar
[13. Sternlicht D. D., Moustier Ch. P: Time-dependent seaflooracoustic backscatter (10-100) kHz. J. Acoust. Soc. Am., 114, 2709÷2723, 200310.1121/1.160801814650007]Search in Google Scholar
[14. Turgut A.: Method and apparatus of classifying marinesediment. Technical Report U. S., 1998]Search in Google Scholar
[15. Uscinowicz S., Zachowicz J.: Geological map of the bottom ofthe Baltic Sea. 8 sheets and pamphlet, scale 1:200, 000, Polish Geological Institute, Warsaw, 1994]Search in Google Scholar
[16. Walter D., Lambert D., Young D., Stephens K.: Mappingsediment acoustic impedance using remote sensing acoustictechniques in a shallow-water carbonate environment. Geo- Marine Letters, 17, 260÷267, 199710.1007/s003670050036]Search in Google Scholar
[17. Wunderlich J., Muller S.: High-resolution sub-bottom profilingusing parametric acoustics. International Ocean Systems, 7 (4), 6÷11, 2003.]Search in Google Scholar