Range dependence of the response of a spherical head model RO Duda, WL Martens The Journal of the Acoustical Society of America 104 (5), 3048-3058, 1998 | 626 | 1998 |
The effects of identification training on the identification and production of American English vowels by native speakers of Japanese SG Lambacher, WL Martens, K Kakehi, CA Marasinghe, G Molholt Applied Psycholinguistics 26 (2), 227-247, 2005 | 246 | 2005 |
Principal components analysis and resynthesis of spectral cues to perceived direction WL Martens Ann Arbor, MI: MPublishing, University of Michigan Library, 1987 | 158 | 1987 |
Method and apparatus for three dimensional audio spatialization DC Massie, JD Sun, SD Friedman, WL Martens, DP Rossum US Patent 5,943,427, 1999 | 126 | 1999 |
Simulating the cues of spatial hearing in natural environments GS Kendall 1984 International Computer Music Conference, 1984 | 96 | 1984 |
Perceptual evaluation of tone mapping operators F Drago, WL Martens, K Myszkowski, HP Seidel ACM SIGGRAPH 2003 Sketches & Applications, 1-1, 2003 | 90 | 2003 |
Spatial reverberator G Kendall, W Martens US Patent 4,731,848, 1988 | 86 | 1988 |
Interactive music generation system making use of global feature control by non-musicians T Dolby, T Dougherty, J Eichenseer, W Martens, M Mills, JS Mountford US Patent 5,952,599, 1999 | 76 | 1999 |
Reaction time as a measure of binocular interaction in human vision. R Blake, W Martens, A Di Gianfilippo Investigative Ophthalmology & Visual Science 19 (8), 930-941, 1980 | 74 | 1980 |
Perceptual evaluation of principal-component-based synthesis of musical timbres GJ Sandell, WL Martens Journal of the Audio Engineering Society 43 (12), 1013-1028, 1995 | 71 | 1995 |
Perceptual evaluation of tone mapping operators with regard to similarity and preference F Drago, WL Martens, K Myszkowski, HP Seidel Max Planck Institut Fur Informatik-Report-MPI I, 2002 | 68 | 2002 |
Perceptual evaluation of filters controlling source direction: Customized and generalized HRTFs for binaural synthesis WL Martens Acoustical Science and Technology 24 (5), 220-232, 2003 | 56 | 2003 |
Method and apparatus for creating de-correlated audio output signals and audio recordings made thereby MD Wilde, WL Martens, GS Kendall US Patent 5,235,646, 1993 | 56 | 1993 |
Shake, rattle, and roll: Gettiing immersed in multisensory, interactiive music via broadband networks W Woszczyk, J Cooperstock, J Roston, W Martens Journal of the Audio Engineering Society 53 (4), 336-344, 2005 | 47 | 2005 |
Identification of English voiceless fricatives by Japanese listeners: The influence of vowel context on sensitivity and response bias S Lambacher, W Martens, B Nelson, J Berman Acoustical Science and Technology 22 (5), 334-343, 2001 | 44 | 2001 |
The effect of loudness on the reverberance of music: Reverberance prediction using loudness models D Lee, D Cabrera, WL Martens The Journal of the Acoustical Society of America 131 (2), 1194-1205, 2012 | 42 | 2012 |
The impact of decorrelated low-frequency reproduction on auditory spatial imagery: Are two subwoofers better than one? WL Martens Audio Engineering Society Conference: 16th International Conference: Spatial …, 1999 | 40 | 1999 |
Range-dependence of the HRTF for a spherical head RO Duda, WL Martens Proceedings of 1997 Workshop on Applications of Signal Processing to Audio …, 1997 | 38 | 1997 |
Audio and Acoustical Response Analysis Environment (AARAE): a tool to support education and research in acoustics D Cabrera, D Jimenez, WL Martens INTER-NOISE and NOISE-CON congress and conference proceedings 249 (6), 1667-1676, 2014 | 37 | 2014 |
Image model reverberation from recirculating delays G Kendall, W Martens, D Freed, D Ludwig, R Karstens Audio Engineering Society Convention 81, 1986 | 37 | 1986 |