Circular Acoustic Vector-Sensor Array for Mode Beamforming

Undersea warfare relies heavily on acoustic means to detect a submerged vessel. The frequency of the acoustic signal radiated by the vessel is typically very low, thus requires a large array aperture to achieve acceptable angular resolution. In this paper, we present a novel approach for low-frequency direction-of-arrival (DOA) estimation using miniature circular vector-sensor array mounted on the perimeter of a cylinder. Under this approach, we conduct beamforming using decomposition in the acoustic mode domain rather than frequency domain, to avoid the long wavelength constraints. We first introduce a multi-layer acoustic gradient scattering model to provide a guideline and performance predication tool for the mode beamformer design and algorithm. We optimize the array gain and frequency response with this model. We further develop the adaptive DOA estimation algorithm based on this model. We formulate the Capon spectra of the mode beamformer which is independent of the frequency band after the mode decomposition. Numerical simulations are conducted to quantify the performance and evaluate the theoretical results developed in this study.

[1]  Brian Richard Rapids Acoustic intensity methods in classical scattering , 2004 .

[2]  J.W.R. Griffiths,et al.  High-resolution beamforming techniques for circular sonar arrays , 1994, Proceedings of OCEANS'94.

[3]  Guillermo C. Gaunaurd,et al.  Signal processing of ideal echoes resonantly scattered by underwater structures , 1990 .

[4]  Arye Nehorai,et al.  Wideband source localization using a distributed acoustic vector-sensor array , 2003, IEEE Trans. Signal Process..

[5]  Herbert Überall,et al.  Resonant acoustic scattering from elastic cylindrical shells , 1983 .

[6]  G. Gaunaurd,et al.  High‐frequency acoustic scattering from submerged cylindrical shells coated with viscoelastic absorbing layers , 1977 .

[7]  Gary R. Wilson,et al.  Vector sensors and vector sensor line arrays: Comments on optimal array gain and detection , 2006 .

[8]  Michael S. Brandstein,et al.  Microphone Arrays - Signal Processing Techniques and Applications , 2001, Microphone Arrays.

[9]  D. E. N. Davies Circular arrays - Their properties and potential applications , 1981 .

[10]  R. D. Tillett,et al.  Image processing for underwater measurement of salmon biomass , 1998 .

[11]  Nan Zou,et al.  Vector Hydrophone Array Development and its Associated DOA Estimation Algorithms , 2006, OCEANS 2006 - Asia Pacific.

[12]  J. A. McConnell,et al.  Analysis of a compliantly suspended acoustic velocity sensor. , 2003, The Journal of the Acoustical Society of America.

[13]  Albert H Nuttall,et al.  Highly directional acoustic receivers. , 2003, The Journal of the Acoustical Society of America.

[14]  R. Doolittle,et al.  SOUND SCATTERING BY ELASTIC CYLINDERS. , 1968 .

[15]  R. D. Doolittle,et al.  Sound Scattering by Elastic Cylindrical Shells , 1966 .

[16]  J. Kendall,et al.  Hydrophone for Measuring Particle Velocity , 1956 .

[17]  Richard K. Johnson Sound scattering from a fluid sphere revisited , 1976 .

[18]  Albert H. Nuttall,et al.  Directivity factors for linear arrays of velocity sensors , 2001 .

[19]  Michel Tran-Van-Nhieu Scattering from a finite cylindrical shell , 1992 .

[20]  Vijay K. Varadan,et al.  Scattering of an obliquely incident acoustic wave by an infinite cylinder , 1980 .

[21]  Zhen Ye A novel approach to sound scattering by cylinders of finite length , 1997 .

[22]  Robert J. Urick,et al.  Principles of underwater sound , 1975 .

[23]  J.C. Shipps,et al.  The use of vector sensors for underwater port and waterway security , 2004, ISA/IEEE Sensors for Industry Conference, 2004. Proceedings the.

[24]  Jonathan Kitchens,et al.  Acoustic vector-sensor array processing , 2010 .

[25]  Arye Nehorai,et al.  Acoustic vector-sensor beamforming and Capon direction estimation , 1995, 1995 International Conference on Acoustics, Speech, and Signal Processing.

[26]  Douglas L. Jones,et al.  Beamformer performance with acoustic vector sensors in air. , 2006, The Journal of the Acoustical Society of America.

[27]  H.-W. Chen,et al.  Wideband MVDR beamforming for acoustic vector sensor linear array , 2004 .

[28]  M. Viberg,et al.  Two decades of array signal processing research: the parametric approach , 1996, IEEE Signal Process. Mag..

[29]  Yang Liu,et al.  Near field acoustic holography with particle velocity transducers , 2005 .

[30]  Herbert Überall,et al.  Resonance scattering of acoustic waves from cylindrical shells , 1978 .

[31]  A. Nuttall,et al.  A Comparison of Vector-Sensing and Scalar-Sensing Linear Arrays. , 1997 .

[32]  G. Gaunaurd,et al.  Sonar cross section of a coated hollow cylinder in water , 1977 .

[33]  Heinz Teutsch,et al.  Modal Array Signal Processing: Principles and Applications of Acoustic Wavefield Decomposition , 2007 .

[34]  D. A. James ACOUSTIC SCATTERING FROM A SEMI-INFINITE, ELASTIC, CYLINDRICAL SHELL , 1996 .

[35]  R. Heitmeyer,et al.  Acoustic source‐level measurements for a variety of merchant ships , 1991 .

[36]  Donald Roe Ross,et al.  Mechanics of underwater noise , 1976 .