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Digital Signal Processing Applied to the Modernization Of Polish Navy Sonars Cover

Digital Signal Processing Applied to the Modernization Of Polish Navy Sonars

Polish Maritime Research
Volume 21 (2014): Issue 2 (April 2014)
By: Jacek Marszal  
Open Access
|Jul 2014

References

  1. 1. Brown J. L. Jr: On the error in reconstructing a non-bandlimited function by means of the bandpass sampling theorem. Journal Math. Anal. Applied, Vol. 18. 1967, pp. 75-84, Erratum - Vol. 21.1968, p. 699
    Search in Google Scholar
  2. 2. Brown J. L. Jr: On quadrature sampling of bandpass signals. IEEE Transactions on Aerospace and Electronic Systems, vol. 15, No. 3, 1979, pp. 366-371
    Search in Google Scholar
  3. 3. Cordesses L.: Direct digital synthesis: a tool for periodic wave generation (Part 1). IEE Signal Processing Magazine, July 2004, pp. 50-54
    Search in Google Scholar
  4. 4. Cordesses L.: Direct digital synthesis: a tool for periodic wave generation (Part 2). IEE Signal Processing Magazine, September 2004, pp. 11-112
    Search in Google Scholar
  5. 5. Curtis T. E.: Ward R. J., Digital beamforming for sonar systems. IEE Proceedings Part F, Communications, Radar and Signal Processing, Vol. 127, No. 4, 1980
    Search in Google Scholar
  6. 6. Curtis T.: Sonar technology - past and current. Curtis Technology (UK) Ltd, 2004., http://www.curtistech.co.uk/papers/sonarpc.pdf
    Search in Google Scholar
  7. 7. Friedman N.: The naval institute guide to world naval weapon systems. Naval Institute Press, 2006
    Search in Google Scholar
  8. 8. Grace O. D., Pitt S. D.: Quadrature sampling of high frequency waveforms. Journal of Acoustical Society of America, Vol. 44, pp. 1432-1436, 1968
    Search in Google Scholar
  9. 9. Grelowska G., Kozaczka E., Kozaczka S., Szymczak W., Underwater Noise Generated by a Small Ship in the Shallow Sea, Archives of Acoustics, Vol. 38, No 3, 2013, pp. 351-356
    Search in Google Scholar
  10. 10. Hodges R. P.: Underwater Acoustics: Analysis, Design, and Performance of Sonar. Wiley, 2010
    Search in Google Scholar
  11. 11. Jedel A., Kilan L., Marszal J., Ostrowski Z., Salamon R.: Dynamic control of the receiving beam horizontal cross-section in the side scan sonar. Hydroacoustics, Vol. 8, 2005, pp. 69-76
    Search in Google Scholar
  12. 12. Kester W.: Data conversion handbook (Analog Devices). Elsevier/Newnes, 2005
    Search in Google Scholar
  13. 13. Kilian L., Marszal J.: Analyse der Richtwirkung einer linearen Matrix von Hydrofonen fur determinierte Breitbandsignale, Fortschritte der Akustik DAGA’93, Teil A, Frankfurt am Main 1993, pp. 430-433
    Search in Google Scholar
  14. 14. Kilian L., Raganowicz A., Sidorko T.: Visualization forms in MCM side scan sonar. Hydroacoustics, Vol. 13, 2010, pp. 119-126
    Search in Google Scholar
  15. 15. Knight W. C., Pridham R. G., Kay S. M.: Digital signal processing for sonar. Proceedings of the IEEE, Vol. 69, No. 11, 1981
    Search in Google Scholar
  16. 16. Kolev N.: Sonar systems. InTech, 2011
    Search in Google Scholar
  17. 17. Kozaczka E.,Grelowska G.: Shipping noise. Archives of Acoustics, Vol. 29, No 2, 2004, pp. 169-176
    Search in Google Scholar
  18. 18. Kozaczka E., Domagalski J., Grelowska G., Gloza I.: Identification of hydro-acoustic waves emitted from floating units during mooring tests, Polish Maritime Research, Vol. 14, No 4(54), 2007, pp. 40-46
    Search in Google Scholar
  19. 19. Kozaczka E., Grelowska G.: Shipping low frequency noise and its propagation in shallow water, Acta Physica Polonica A, Vol. 119, No 6A, 2011, pp. 1009-1012
    Search in Google Scholar
  20. 20. Leśniak W., Marszal J., Salamon R., Rudnicki M., Schmidt A.: Digital mono-pulse method in cylindrical antenna. Archives of Acoustics, Vol. 31, No. 4 (sup.), 2006, pp. 357-363
    Search in Google Scholar
  21. 21. Leśniak W., Marszal J., Salamon R., Zachariasz K., Schmidt J.: Method for improving multibeam sonar bearing accuracy. Hydroacoustics, Vol. 12, 2009, pp. 99-108
    Search in Google Scholar
  22. 22. Leśniak W., Rudnicki M.: Improving the accuracy of bearing in active sonar with cylindrical array using spectrum estimation. Hydroacoustics, Vol. 16, 2013, pp. 159-166.
    Search in Google Scholar
  23. 23. Lyons R. G.: Understanding digital signal processing. 2-nd Edition. Prentice Hall, 2004
    Search in Google Scholar
  24. 24. Maloberti F.: Data converters. Springer, 2008
    Search in Google Scholar
  25. 25. Marszal J.: Directivity pattern of active sonars with wideband signals. Acoustical Imaging, Vol. 19, Springer, 1992, pp. 915-919
    Search in Google Scholar
  26. 26. Marszal J., Zachariasz K.: Richtwirkung des aktiven Sonars fur Sendesignale mit schafer Autokorrelationsfunktion. Fortschritte der Akustik DAGA 93, Teil A, Frankfurt am Main 1993, pp. 434-437
    Search in Google Scholar
  27. 27. Marszal J., Jedel A., Ostrowski Z.: Small antenna for a dipping sonar. Hydroacoustics, Vol. 4, 2001, pp. 169-172
    Search in Google Scholar
  28. 28. Marszal J., Salamon R., Stepnowski A.: Military sonar upgrading methods developed at Gdansk University of Technology. Proc. IEEE Oceans’05 Europe Conference, Brest 2005. [Electronic document CD-ROM], pp. 489-494
    Search in Google Scholar
  29. 29. Marszal J., Leśniak W., Salamon R., Jedel A., Zachariasz K.: Passive sonar with cylindrical array. Archives of Acoustics, Vol. 31, No. 4 (Sup.), 2006, pp. 365 - 371
    Search in Google Scholar
  30. 30. Marszal J., Leśniak W., Salamon R., Schmidt J.: Electronic stabilization of beams in sonar with cylindrical array. Hydroacoustics, Vol. 9, 2006, pp. 119-124
    Search in Google Scholar
  31. 31. Marszal J., Ostrowski Z., Schmidt J., Kilian L., Jedel A., Schmidt A.: Time variable gain for long range sonar with chirp sounding signal. Hydroacoustics, Vol. 10, 2007, pp. 117-122
    Search in Google Scholar
  32. 32. Marszal J., Schmidt J., Salamon R., Kilian L., Raganowicz A., Zachariasz K., Ostrowski Z., Jedel A., Rudnicki M., Sidorko T., Schmidt A., Leśniak W.: Modernization of ASW sonar SQS-56 at Gdansk University of Technology. Hydroacoustics, Vol. 13, 2010, pp. 191-196
    Search in Google Scholar
  33. 33. Marszal J., Salamon R., Zachariasz K., Schmidt A.: Doppler Effect in the CWFM sonar. Hydroacoustics Vol. 14, 2011, pp. 157-164
    Search in Google Scholar
  34. 34. Marszal J., Salamon R., Kilian L.: Application of maximum length sequences in silent sonar. Hydroacoustics, Vol. 15, 2012, pp. 143-152
    Search in Google Scholar
  35. 35. Marszal J., Salamon R.: Distance measurement errors in Silent FM-CW sonar with matched filtering. Metrology and Measurement Systems, Vol. XIX, No. 2, 2012, pp. 321-332
    Search in Google Scholar
  36. 36. Marszal J., Salamon R.: Silent sonar for maritime security applications. Proceedings of Meetings on Acoustics, Acoustical Society of America, Vol. 17, 070082, 2013
    Search in Google Scholar
  37. 37. Marszal J.: Implementation of Contemporary Technologies in the Modernization of Naval Sonars. Hydroacoustics, Vol. 16, 2013, pp. 167-180
    Search in Google Scholar
  38. 38. Marszal J., Salamon R.: Detection Range of Intercept Sonar for CWFM Signals, Archives of Acoustics, Vol. 39, 2014, No 2
    Search in Google Scholar
  39. 39. Marszal J.: Experimental Investigation of Silent Sonar, Archives of Acoustics, Vol. 39, 2014, No 1, pp. 103-115
    Search in Google Scholar
  40. 40. McHale J.: Radar signal processing upgrades use embedded COTS hardware. Military Embedded Systems, Vol. 8 No. 1, 2012, pp. 30-35
    Search in Google Scholar
  41. 41. Nielsen R. O.: Sonar signal processing. Artech House, 1991
    Search in Google Scholar
  42. 42. Raganowicz A., Salamon R., Rudnicki M., Kilian L.: Visual representation of the effects of spatial and frequency filters applied in passive sonars. Hydroacoustics, Vol. 4, 2001, pp. 281-284
    Search in Google Scholar
  43. 43. Raganowicz A., Kilian L., Ostrowski Z.: Special forms of echo visual representation in an ahead looking sonar. Hydroacoustics. Vol. 5/6, 2003, pp. 47-52
    Search in Google Scholar
  44. 44. Raganowicz A., Kilian L., Marszal J., Ostrowski Z., Schmidt A.: Visualisation forms in passive sonar with towed array. Archives of Acoustics, Vol. 31, No. 4 (Sup.), 2006, pp. 373 - 378
    Search in Google Scholar
  45. 45. Rudnicki M., Raganowicz A., Schmidt J.: Acoustic signal processing in passive sonar system with towed array. Hydroacoustics, Vol. 11, 2008, pp. 329-338
    Search in Google Scholar
  46. 46. Rudnicki M., Schmidt J., Schmidt A., Leśniak W.: Acoustic processor of the mine countermeasure sonar. Hydroacoustics, Vol. 15, 2012, pp. 179-186
    Search in Google Scholar
  47. 47. Rudnik P.: Small signal detection in the DIMUS array. Journal of Acoustical Society of America, Vol. 32, No. 7, pp. 871-877, 1960
    Search in Google Scholar
  48. 48. Salamon R., Marszal J., Kilian L., Jedel A.: New signal processing in a passive sonar with gradient antenna. Hydroacoustics, Vol. 3, 2000, pp. 129-134
    Search in Google Scholar
  49. 49. Salamon R., Marszal J., Raganowicz A., Rudnicki M.: Application of Fourier transformation in a passive sonar with gradient hydrophones. Proc. of the Fifth European Conference on Underwater Acoustics. Proceedings of fifth European Conference on Underwater Acoustics, ECUA 2000, Lyon, pp. 1115-1120
    Search in Google Scholar
  50. 50. Salamon R., Marszal J., Rudnicki M.: 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
    Search in Google Scholar
  51. 51. Salamon R., Marszal J.: Optimising the sounding pulse of the rotational directional transmission sonar. Acta Acustica united with Acustica, Vol. 88, 2002, pp. 666-669
    Search in Google Scholar
  52. 52. Salamon R., Rudnicki M., Schmidt J.: General analysis of broadband signal spatial filtration. Hydroacoustics, Vol. 5/6, 2003, pp. 251-260
    Search in Google Scholar
  53. 53. Salamon R., Marszal J., Leśniak W.: Broadband sonar with a cylindrical antenna. Acta Acustica united with Acustica, Vol. 92, 2006, pp. 153-155
    Search in Google Scholar
  54. 54. Salamon, R.: Sonar systems. [in Polish], Gdanskie Towarzystwo Naukowe, Gdansk 2006
    Search in Google Scholar
  55. 55. Salamon R., Marszal J., Schmidt J., Rudnicki M.: Silent sonar with matched filtration. Hydroacoustics, Vol. 14, 2011, pp. 199-208
    Search in Google Scholar
  56. 56. Salamon R., Marszal J.: Estimating Intercept Range of Silent Sonar, in Hydroacoustics of Shallow Water edited by E. Kozaczka, G. Grelowska, Polish Academy of Sciences Institute of Fundamental Technological Research, Warszawa, 2013, pp. 139-158
    Search in Google Scholar
  57. 57. Schmidt J., Schmidt A.: Implementation of the digital receiver in multibeam long-range sonar, Hydroacoustics, Vol. 16, 2013, pp. 203-210
    Search in Google Scholar
  58. 58. Schwenke R. W.: Sensitivity analysis of an estimator-correlator for the detection of spread targets with multiple discrete highlights. Technical Report No. TR 00-006, The Pennsylvania State University Applied Research Lab., 2000
    Search in Google Scholar
  59. 59. Sherman S. M.: Monopulse Principles and Techniques, Artech, 1984
    Search in Google Scholar
  60. 60. Skolnik, M.: Radar Handbook, Third Edition. McGraw-Hill, 2008
    Search in Google Scholar
  61. 61. Smith S. W.: Digital Signal Processing: a practical guide for engineers and scientists. Newnes, 2002
    Search in Google Scholar
  62. 62. Valakama M., Renfors M.: Second-order sampling of wideband signals. Proc. of IEEE International Symposium on Circuits and Systems, ISCAS 2001, Vol. 2, pp. 801 - 804
    Search in Google Scholar
  63. 63. Waite A. D.: Sonar for practicing engineers.Third Edition. Wiley (2002)
    Search in Google Scholar
DOI: https://doi.org/10.2478/pomr-2014-0021 | Journal eISSN: 2083-7429 | Journal ISSN: 1233-2585
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Language: English
Page range: 65 - 75
Published on: Jul 26, 2014
Published by: Gdansk University of Technology
In partnership with: Paradigm Publishing Services
Publication frequency: 4 issues per year
Keywords:
sonar,
anti-submarine warfare,
mine countermeasure,
digital signal processing
Related subjects:
Geosciences,
Atmospheric science and climatology,
Engineering,
Introductions and overviews,
Engineering, other,
Life sciences,
Life sciences, other

© 2014 Jacek Marszal, published by Gdansk University of Technology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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