• Scan & Listen: a simple and fast method to find sources,
  Johan de Vries and Hans-Elias de Bree, SAE Brazil, 2008
  click here for sounds

Velocity probes are suitable far field localization:

• Acoustic eyes, a novel sound source localization and monitoring technique with 3D sound probes,
  T.G.H. Basten, H.E. de Bree, S. Sadasivan, ISMA, 2008
• A single broad banded 3D beamforming sound probe,
  H.E. de Bree, T. Basten, D. Yntema, DAGA, 2008
• Localization and tracking of aircraft with ground based 3D sound probes,
  T. Basten, HE de Bree, and E. Tijs, ERF33, Kazan, Russia, 2007
• Wideband Source Localization Using a Distributed Acoustic Vector-Sensor Array,
  Malcolm Hawkes, IEEE TRANSACTIONS ON SIGNAL PROCESSING, VOL. 51, NO. 6, JUNE 2003

Velocity probes are most suitable for PNAH:

• Near Field Acoustic Holography with particle velocity transducers,
  Finn Jacobsen and Yang Liu,  JASA 118(5), November 2005, pp 3139-3144
• Near Field Acoustic Holography Based on an Array of Particle Velocity Sensors,
  Finn Jacobsen and Yang Liu,  internoise 2005, Brazil
• Acoustic holography with incoherent sources,
  W.F. Druyvesteyn and R. Raangs, Forum Acousticum 2005
• Development of an Energy-based Nearfield Acoustic Holography System,
  Michael C. Harris (Prof.: Jonathan D. Blotter), Master of Science thesis submitted to the faculty of Brigham Young University
• On the use of PU probes for measuring the transitory near acoustic field,
  Ollivier et al., Euronoise 2006
• The Microflown, a novel approach to helicopters interior noise testing,
  Antonio Vecchio et al, IMTC 2006
• Quantitative and Qualitative verivication of pressure and velocity based planar nearfield acoustic holography,
  Scholte et al, ICSV13, 2006
• Statistically optimised near field acoustic holography with an array of pressure-velocity intensity probes,
  Finn Jacobsen et al., Internoise 2006
• Statistically optimized near field acoustic holography using an array of pressure-velocity probes,
  Finn Jacobsen et al., JASA, 2007

PNAH, beamforming arrays compared with the intensity method:

• An Integrated NAH/Beamforming Solution for Efficient Broad-Band Noise Source Location,
  J. Hald, SAE 2005, USA

• A particle velocity sensor to measure the sound from a structure in the presence of background noise,
  H-E. de Bree, W.F. Druyvesteyn, Forum Acousticum 2005
  Sound Files(1.3MB)
• An intuitive handheld acoustic noise source finder,
  Yntema et al, Fisita 2006

On IBEM method:

• A boundary element approach to acoustic radiation and source indentification,
  R. Visser, PhD Thesis 2004, Enschede, The Netherlands
• Acoustic Source Localization based on Pressure and Particle Velocity Measurements, 
  R. Visser, Internoise 2003 Seogwipo, Korea
• Fourier Acoustics: Uncovering the origins of sound (pdf),
  Earl G. Williams, ICSV11, St. Petersburg 2004
• Inverse Source Identification based on Acoustic Particle Velocity Measurements, 
  R. Visser, Internoise 2002 Dearborn, USA

Various methods:

• Identify velocity of a complex with IPTF method,
  Nicolas Totaro, Celine Sandier and Jean-Louis Guyader, ICSV15 Deajeon Korea, 2008
• Inverse source strength reconstruction techniques for ducted acoustic source,
  Teresa Bravo and Cedric Maury, ICSV15 Deajeon Korea, 2008
• In-Duct Acoustic Source Reconstruction from Pressure and Velocity-Based Measurements,
  Teresa Bravo and Cedric Maury, 13th AIAA/CEAS Aeroacoustics Conference, 2007
• Choosing the most appropriate sensor for acoustic measurements,
  D.R. Yntema, et al, ICA, 2007
• A novel probe for source localization and free field measurements in a diffuse field,
  R. Raangs et al., Internoise 2001 The Hague
• Sound source localization using sound intensity measured by a three dimensional PU probe, 
  R. Raangs and W.F. Druyvesteyn, AES Munich 2002
• Using particle velocity sensors in active noise and vibration control applications,
  L.V. Donadon and J.F. Arruda, Internoise 2002 Dearborn, Michigan
• Development of a nearfield acoustic holography system based on pressure and velocity measurements,
  M.C. Harris, J.D. Blotter, S.D.Sommerfeldt, H-E. de Bree, ASME 2005
• Development of an energy based near field acoustic holography system,
  M.C. Harris, master thesis, Brigham Young University, 2005
• Obtaining the complex pressure field at the hologram surface for use in near-field acoustical holography when pressure and in-plane velocities are measured,
  M.C. Harris, J.D. Blotter, JASA 2005
• A four particle velocity sensor device
  D.R.Yntema, Jasa 2005
• Railway sound source separation by combined sound pressure and sound velocity measurements,
  Wunderli, ICSV13, 2006
• Acoustic blind source separation based on the particle velocity vector measurement,
  Teramoto, ICSV13, 2006
• A particle velocity based method for separating all multi incoherent sound sources,
  Winkel et al, Fisita Japan, 2006