Publications by Topic

• Wang D.L. (2005): The time dimension for scene analysis. IEEE Transactions on Neural Networks, vol. 16, pp. 1401-1426 (This paper receives the 2005 IEEE Transactions on Neural Networks Outstanding Paper Award from the IEEE Computational Intelligence Society).
  
  
• Wang D.L., Freeman W.J., Kozma R., Lozowski A., and Minai A. (2004): Guest Editorial for Special Issue on Temporal Coding for Neural Information Processing. IEEE Transactions on Neural Networks, vol. 15, pp. 953-956.
  
  
• Wang D.L. (September 2001): Book Review: Unsupervised Learning - Foundations of Neural Computation. Edited by G. Hinton and T.J. Sejnowski, MIT Press, 1999. AI Magazine, vol. 22, 101-102.
  
  
• Wang D.L. (2000): On connectedness: a solution based on oscillatory correlation. Neural Computation, vol. 12, 131-139.
  
  
• Wang D.L. (1997): On the computational basis of synchronized codes. Behavioral and Brain Sciences, vol. 20, 700-701.
  
  
• Wang D.L. (August 1993): Pattern recognition: Neural networks in perspective. IEEE Expert, vol. 8, 52-60.
  
  

• Wang D.L. (2007): Computational scene analysis. In Duch W. and Mandziuk J. (ed.), Challenges for Computational Intelligence, Springer, Berlin, pp. 163-191.
  
  
• Wang D.L. (1999): Relaxation oscillators and networks. In Webster J. (ed.), Wiley Encyclopedia of Electrical and Electronics Engineering, vol. 18, pp. 396-405, Wiley & Sons.
  

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Auditory Analysis   (Journal Articles   Book Chapters   Conference Papers   Technical Reports)

• Zhao X., Shao Y., and Wang D.L. (2012): CASA-based robust speaker identification. IEEE Transactions on Audio, Speech, and Language Processing, vol. 20, pp. 1608-1616.
  
  
• Woodruff J. and Wang D.L. (2012): Binaural localization of multiple sources in reverberant and noisy environments. IEEE Transactions on Audio, Speech, and Language Processing, vol. 20, pp. 1503-1512.
  
  
• Hsu C.-L., Wang D.L., Jang J.-S.R., and Hu K. (2012): A tandem algorithm for singing pitch extraction and voice separation from music accompaniment. IEEE Transactions on Audio, Speech, and Language Processing, vol. 20, pp. 1482-1491.
  
  
• Jin Z. and Wang D.L. (2011): Reverberant speech segregation based on multipitch tracking and classification. IEEE Transactions on Audio, Speech, and Language Processing, vol. 19, pp. 2328-2337. (Related Source Code.)
  
  
• Hu K. and Wang D.L. (2011): Unvoiced speech segregation from nonspeech interference via CASA and spectral subtraction. IEEE Transactions on Audio, Speech, and Language Processing, vol. 19, pp. 1600-1609. (Related Source Code.)
  
  
• Jin Z. and Wang D.L. (2011): HMM-based multipitch tracking for noisy and reverberant speech. IEEE Transactions on Audio, Speech, and Language Processing, vol. 19, pp. 1091-1102. (Related Source Code.)
  
  
• Jan T., Wang W., Wang D.L. (2011): A multistage approach to blind separation of convolutive speech mixtures. Speech Communication, vol. 53, pp. 524-539.
  
  
• Hu G. and Wang D.L. (2010): A tandem algorithm for pitch estimation and voiced speech segregation. IEEE Transactions on Audio, Speech, and Language Processing, vol. 18, pp. 2067-2079. (Related Sound Demo.)
  
  
• Narayanan A. and Wang D.L. (2010): Robust speech recognition from binary masks. Journal of the Acoustical Society of America Express Letters, vol. 128, pp. EL217-222.
  
  
• Woodruff J. and Wang D.L. (2010): Sequential organization of speech in reverberant environments by integrating monaural grouping and binaural localization. IEEE Transactions on Audio, Speech, and Language Processing, vol. 18, pp. 1856-1866.
  
  
• Srinivasan S. and Wang D.L. (2010): Robust speech recognition by integrating speech separation and hypothesis testing. Speech Communication, vol. 52, pp. 72-81.
  
  
• Shao Y., Srinivasan S., Jin Z., and Wang D.L. (2010): A computational auditory scene analysis system for speech segregation and robust speech recognition. Computer Speech and Language, vol. 24, pp. 77-93.
  
  
• Kjems U., Boldt J.B., Pedersen M.S., Lunner T., and Wang D.L. (2009) Role of mask pattern in intelligibility of ideal binary-masked noisy speech. Journal of the Acoustical Society of America, vol. 126, pp. 1415-1426.
  
  
• Li Y., Woodruff J., and Wang D.L. (2009): Monaural musical sound separation based on pitch and common amplitude modulation. IEEE Transactions on Audio, Speech, and Language Processing, vol. 17, pp. 1361-1371. (Related Sound Demo and Source Code.)
  
  
• Li Y. and Wang D.L. (2009): Musical sound separation based on binary time-frequency masking. EURASIP Journal on Audio, Speech, and Music Processing, vol. 2009, Article ID 130567, 10 pages.
  
  
• Shao Y. and Wang D.L. (2009): Sequential organization of speech in computational auditory scene analysis. Speech Communication, vol. 51, pp. 657-667.
  
  
• Brungart D.S., Chang P.S., Simpson B.D., and Wang D.L. (2009): Multitalker speech perception with ideal time-frequency segregation: Effects of voice characteristics and number of talkers. Journal of the Acoustical Society of America, vol. 125, pp. 4006-4022.
  
  
• Wang D.L., Kjems U., Pedersen M.S., Boldt J.B., and Lunner T. (2009): Speech intelligibility in background noise with ideal binary time-frequency masking. Journal of the Acoustical Society of America, vol. 125, pp. 2336-2347.
  
  
• Jin Z. and Wang D.L. (2009): A supervised learning approach to monaural segregation of reverberant speech. IEEE Transactions on Audio, Speech, and Language Processing, vol. 17, pp. 625-638.
  
  
• Li Y. and Wang D.L. (2009): On the optimality of ideal binary time-frequency masks. Speech Communication, vol. 51, pp. 230-239.
  
  
• Wang D.L. (2008): Time-frequency masking for speech separation and its potential for hearing aid design. Trends in Amplification, vol. 12, pp. 332-353.
  
  
• Srinivasan S. and Wang D.L. (2008): A model for multitalker speech perception. Journal of the Acoustical Society of America, vol. 124, pp. 3213-3224.
  
  
• Wang D.L., Kjems U., Pedersen M.S., Boldt J.B., and Lunner T. (2008): Speech perception of noise with binary gains. Journal of the Acoustical Society of America, vol. 124, pp. 2303-2307.
  
  
• Hu G. and Wang D.L. (2008): Segregation of unvoiced speech from nonspeech interference. Journal of the Acoustical Society of America, vol. 124, pp. 1306-1319.
  
  
• Roman N. and Wang D.L. (2008): Binaural tracking of multiple moving sources. IEEE Transactions on Audio, Speech, and Language Processing, vol. 16, pp. 728-739.
  
  
• Wang D.L. and Chang P.S. (2008): An oscillatory correlation model of auditory streaming. Cognitive Neurodynamics, vol. 2, pp. 7-19.
  
  
• Pedersen M.S., Wang D.L., Larsen J., and Kjems U. (2008): Two-microphone separation of speech mixtures. IEEE Transactions on Neural Networks, vol. 19, pp. 475-492. (Related Sound Demo and Source Code.)
  
  
• Srinivasan S. and Wang D.L. (2007): Transforming binary uncertainties for robust speech recognition. IEEE Transactions on Audio, Speech, and Language Processing, vol. 15, pp. 2130-2140.
  
  
• Li Y. and Wang D.L. (2007): Separation of singing voice from music accompaniment for monaural recordings. IEEE Transactions on Audio, Speech, and Language Processing, vol. 15, pp. 1475-1487.
  
  
• Hu G. and Wang D.L. (2007): Auditory segmentation based on onset and offset analysis. IEEE Transactions on Audio, Speech, and Language Processing, vol. 15, pp. 396-405.
  
  
• Roman N., Srinivasan S., and Wang D.L. (2006): Binaural segregation in multisource reverberant environments. Journal of the Acoustical Society of America, vol. 120, pp. 4040-4051.
  
  
• Brungart D.S., Chang P.S., Simpson B.D., and Wang D.L. (2006): Isolating the energetic component of speech-on-speech masking with ideal time-frequency segregation. Journal of the Acoustical Society of America, vol. 120, pp. 4007-4018.
  
  
• Srinivasan S., Roman N., and Wang D.L. (2006): Binary and ratio time-frequency masks for robust speech recognition. Speech Communication, vol. 48, pp. 1486-1501.
  
  
• Roman N. and Wang D.L. (2006): Pitch-based monaural segregation of reverberant speech. Journal of the Acoustical Society of America, vol. 120, pp. 458-469.
  
  
• Wu M. and Wang D.L. (2006): A two-stage algorithm for one-microphone reverberant speech enhancement. IEEE Transactions on Audio, Speech, and Language Processing, vol. 14, pp. 774-784. (Related Sound Demo and Source Code.)
  
  
• Wu M. and Wang D.L. (2006): A pitch-based method for the estimation of short reverberation time. Acta Acustica united with Acustica, vol. 92, pp. 337-339.
  
  
• Shao Y. and Wang D.L. (2006): Model-based sequential organization in cochannel speech. IEEE Transactions on Audio, Speech, and Language Processing (formerly IEEE Transactions on Speech and Audio Processing), vol. 14, pp. 289-298.
  
  
• Srinivasan S. and Wang D.L. (2005): A schema-based model for phonemic restoration. Speech Communication, vol. 45, pp. 63-87.
  
  
• Palomaki K.J., Brown G.J., and Wang D.L. (2004): A binaural processor for missing data speech recognition in the presence of noise and small-room reverberation. Speech Communication, vol. 43, pp. 361-378.
  
  
• Hu G. and Wang D.L. (2004): Monaural speech segregation based on pitch tracking and amplitude modulation. IEEE Transactions on Neural Networks, vol. 15, pp. 1135-1150. (Related Sound Demo and Source Code.)
  
  
• Roman N., Wang D.L., Brown G.J. (2003): Speech segregation based on sound localization. Journal of the Acoustical Society of America, vol. 114, Pt. 1, pp. 2236-2252. (Related Sound Demo and Source Code.)
  
  
• Wu M., Wang D.L., and Brown G.J. (2003): A multipitch tracking algorithm for noisy speech. IEEE Transactions on Speech and Audio Processing, vol. 11, pp. 229-241. (Related Source Code.)
  
  
• van der Kouwe A.J.W., Wang D.L., and Brown G.J. (2001): A comparison of auditory and blind separation techniques for speech segregation. IEEE Transactions on Speech and Audio Processing, vol. 9, 189-195.
  
  
• Wang D.L. and Brown G.J. (1999): Separation of speech from interfering sounds based on oscillatory correlation. IEEE Transactions on Neural Networks, vol. 10, 684-697. (Related Source Code.)
  
  
• Brown G.J. and Wang D.L. (1997): Modelling the perceptual segregation of double vowels with a network of neural oscillators. Neural Networks, vol. 10, 1547-1558.
  
  
• Wang D.L. (1996): Primitive auditory segregation based on oscillatory correlation. Cognitive Science, vol. 20, 409-456.
  

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• Brown G.J. and Wang D.L. (2005): Timing is of the essence: Neural oscillator models of auditory grouping. In Greenberg S. and Ainsworth W. (ed.), Listening to Speech: An Auditory Perspective, Lawrence Erlbaum, Mahwah NJ, in press.
  
  
• Brown G.J. and Wang D.L. (2005): Separation of speech by computational auditory scene analysis. In Benesty J., Makino S., and Chen J. (ed.), Speech Enhancement, Springer, New York, pp. 371-402.
  
  
• Wang D.L. (2005): On ideal binary mask as the computational goal of auditory scene analysis. In Divenyi P. (ed.), Speech Separation by Humans and Machines, pp. 181-197, Kluwer Academic, Norwell MA.
  
  
• Wang D.L. (1998): Stream segregation based on oscillatory correlation. In Rosenthal D. and Okuno H.G. (eds.), Computational Auditory Scene Analysis, pp. 71-86, Lawrence Erlbaum, Mahwah NJ.
  
  
• Wang D.L. (1995): An oscillatory correlation theory of temporal pattern segmentation. In Covey E., Hawkins H., and Port R.F. (eds), Neural Representation of Temporal Patterns, pp. 53-75, Plenum, New York.
  

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• Hu K. and Wang D.L. (2012): SVM-based separation of unvoiced-voiced speech in cochannel conditions. Proceedings of ICASSP-12, pp. 4545-4548.
  
  
• Han K. and Wang D.L. (2012): On generalization of classification based speech separation. Proceedings of ICASSP-12, pp. 4541-4544.
  
  
• Woodruff J. and Wang D.L. (2012): Binaural speech segregation based on pitch and azimuth tracking. Proceedings of ICASSP-12, pp. 241-244.
  
  
• Woodruff J. and Wang D.L. (2011): Directionality-based speech enhancement for hearing aids. Proceedings of ICASSP-11, pp. 297-300.
  
  
• Hsu C.-L., Wang D.L., and Jang J.-S.R. (2011): A trend estimation algorithm for singing pitch detection in musical recordings. Proceedings of ICASSP-11, pp. 393-396.
  
  
• Narayanan A. and Wang D.L. (2011): On the use of ideal binary masks for improving phonetic classification. Proceedings of ICASSP-11, pp. 4632-4635.
  
  
• Hu K. and Wang D.L. (2011): An approach to sequential grouping in cochannel speech. Proceedings of ICASSP-11, pp. 4636-4639.
  
  
• Narayanan A., Zhao X., Wang D.L., and Fosler-Lussier E. (2011): Robust speech recognition using multiple prior models for speech reconstruction. Proceedings of ICASSP-11, pp. 4800-4803.
  
  
• Han K. and Wang D.L. (2011): An SVM based classification approach to speech separation. Proceedings of ICASSP-11, pp. 5212-5215.
  
  
• Zhao X., Shao Y., and Wang D.L. (2011): Robust speaker identification using a CASA front-end. Proceedings of ICASSP-11, pp. 5468-5471.
  
  
• Hu K. and Wang D.L. (2010): Unvoiced speech segregation based on CASA and spectral subtraction. Proceedings of INTERSPEECH-10, pp. 2786-2789.
  
  
• Hu K. and Wang D.L. (2010): Unsupervised sequential organization for cochannel speech separation. Proceedings of INTERSPEECH-10, pp. 2790-2793.
  
  
• Woodruff J., Prabhavalkar R., Fosler-Lussier E., and Wang D.L. (2010): Combining monaural and binaural evidence for reverberant speech segregation. Proceedings of INTERSPEECH-10, pp. 406-409.
  
  
• Kjems U., Pedersen M.S., Boldt J.B., Lunner T., and Wang D.L. (2010): Speech intelligibility of ideal binary masked mixtures. Proceedings of EUSIPCO-10, pp. 1909-1913.
  
  
• Jin Z. and Wang D.L. (2010): A multipitch tracking algorithm for noisy and reverberant speech. Proceedings of ICASSP-10, pp. 4218-4221.
  
  
• Woodruff J. and Wang D.L. (2010): Integrating monaural and binaural analysis for localizing multiple reverberant sound sources. Proceedings of ICASSP-10, pp. 2706-2709.
  
  
• Jan T., Wang W., Wang D.L. (2009): A multistage approach for blind separation of convolutive speech mixtures. Proceedings of ICASSP-09, pp. 1713-1716.
  
  
• Woodruff J. and Wang D.L. (2009): On the role of localization cues in binaural segregation of reverberant speech. Proceedings of ICASSP-09, pp. 2205-2208.
  
  
• Hu K. and Wang D.L. (2009): Incorporating spectral subtraction and noise type for unvoiced speech segregation. Proceedings of ICASSP-09, pp. 4425-4428.
  
  
• Shao Y., Jin Z., Wang D.L., and Srinivasan S. (2009): An auditory-based feature for robust speech recognition. Proceedings of ICASSP-09, pp. 4625-4628.
  
  
• Jin Z. and Wang D.L. (2009): Learning to maximize signal-to-noise ratio for reverberant speech segregation. Proceedings of ICASSP-09, pp. 4689-4692.
  
  
• Hu K., Divenyi P., Ellis D.P.W., Jin Z., Shinn-Cunningham B.G., and Wang D.L. (2008): Preliminary intelligibility tests of a monaural speech segregation system. ISCA Tutorial and Research Workshop on Statistical and Perceptual Audition (SAPA-08).
  
  
• Woodruff J., Li Y., and Wang D.L. (2008): Resolving overlapping harmonics for monaural musical sound separation using pitch and common amplitude modulation. Proceedings of ISMIR-08, pp. 538-543. (Related Sound Demo.)
  
  
• Boldt J.B., Kjems U., Pedersen M.S., Lunner T., and Wang D.L. (2008): Estimation of the ideal binary mask using directional systems. Proceedings of IWAENC-08.
  
  
• Li Y. and Wang D.L. (2008): Musical sound separation using pitch-based labeling and binary time-frequency masking. Proceedings of ICASSP-08, pp. 173-176.
  
  
• Li Y. and Wang D.L. (2008): On the optimality of ideal binary time-frequency masks. Proceedings of ICASSP-08, pp. 3501-3504.
  
  
• Shao Y. and Wang D.L. (2008): Robust speaker identification using auditory features and computational auditory scene analysis. Proceedings of ICASSP-08, pp. 1589-1592.
  
  
• Jin Z. and Wang D.L. (2007): A supervised learning approach to monaural segregation of reverberant speech. Proceedings of ICASSP-07, pp. IV.921-924.
  
  
• Li Y. and Wang D.L. (2007): Pitch detection in polyphonic music using instrument tone models. Proceedings of ICASSP-07, pp. II.481-484.
  
  
• Shao Y., Srinivasan S., and Wang D.L. (2007): Incorporating auditory feature uncertainties in robust speaker identification. Proceedings of ICASSP-07, pp. IV.277-280. (Related Source Code.)
  
  
• Srinivasan S., Roman N., and Wang D.L. (2007): Exploiting uncertainties for binaural speech recognition. Proceedings of ICASSP-07, pp. IV.789-792.
  
  
• Li Y. and Wang D.L. (2006): Singing voice separation from monaural recordings. Proceedings of ISMIR-06, pp. 176-179.
  
  
• Srinivasan S., Shao Y., Jin Z., and Wang D.L. (2006): A computational auditory scene analysis system for robust speech recognition. Proceedings of Interspeech-06, pp. 73-76.
  
  
• Roman N., Srinivasan S., and Wang D.L. (2006): Speech recognition in multisource reverberant environments with binaural inputs. Proceedings of ICASSP-06, pp. I.309-312.
  
  
• Srinivasan S. and Wang D.L. (2006): A supervised learning approach to uncertainty decoding for robust speech recognition. Proceedings of ICASSP-06, pp. I.297-300.
  
  
• Shao Y. and Wang D.L. (2006): Robust speaker recognition using binary time-frequency masks. Proceedings of ICASSP-06, pp. I.645-648.
  
  
• Wang D.L. and Hu G. (2006): Unvoiced speech segregation. Proceedings of ICASSP-06, pp. V.953-956.
  
  
• Pedersen M.S., Wang D.L., Larsen J., and Kjems U. (2006): Separating underdetermined convolutive speech mixtures. Proceedings of Independent Component Analysis and Blind Signal Separation, pp. 674-681.
  
  
• Pedersen M.S., Wang D.L., Larsen J., and Kjems U. (2005): Overcomplete blind source separation by combining ICA and binary time-frequency masking. Proceedings of IEEE Workshop on Machine Learning for Signal Processing, pp. 15-20. (Related Sound Demo.)
  
  
• Roman N. and Wang D.L. (2005): A pitch-based model for separation of reverberant speech. Proceedings of Interspeech-05, pp. 2109-2112.
  
  
• Srinivasan S. and Wang D.L. (2005): Modeling the perception of multitalker speech. Proceedings of Interspeech-05, pp. 1265-1268.
  
  
• Srinivasan S. and Wang D.L. (2005): Robust speech recognition by integrating speech separation and hypothesis testing. Proceedings of ICASSP-05, pp. I.89-92.
  
  
• Hu G. and Wang D.L. (2005): Separation of fricatives and affricates. Proceedings of ICASSP-05, pp. I.1001-1004.
  
  
• Wu M. and Wang D.L. (2005): A two-state algorithm for enhancement of reverberant speech. Proceedings of ICASSP-05, pp. I.1085-1088.
  
  
• Li Y. and Wang D.L. (2005): Detecting pitch of singing voice in polyphonic audio. Proceedings of ICASSP-05, pp. III.17-20.
  
  
• Shao Y. and Wang D.L. (2004): Model-based sequential organization for cochannel speaker identification. Proceedings of ICSLP-04.
  
  
• Srinivasan S., Roman N., and Wang D.L. (2004): On binary and ratio time-frequency masks for robust speech recognition. Proceedings of ICSLP-04.
  
  
• Hu G. and Wang D.L. (2004): Auditory segmentation based on event detection. ISCA Tutorial and Research Workshop on Statistical and Perceptual Audio Processing (SAPA-04).
  
  
• Roman N. and Wang D.L. (2004): Binaural sound segregation for multisource reverberant environments. Proceedings of ICASSP-04, pp. II.373-376.
  
  
• Roman N., Wang D.L., and Brown G.J. (2004): A classification-based cocktail-party processor. Proceedings of NIPS-03. (Related Sound Demo.)
  
  
• Srinivasan S. and Wang D.L. (2003): Schema-based modeling of phonemic restoration. Proceedings of EUROSPEECH-03, pp. 2053-2056.
  
  
• Roman N. and Wang D.L. (2003): Binaural tracking of multiple moving sources. Proceedings of ICASSP-03, pp. V.149-152.
  
  
• Wu M. and Wang D.L. (2003): A one-microphone algorithm for reverberant speech enhancement. Proceedings of ICASSP-03, pp. I. 844-847.
  
  
• Hu G. and Wang D.L. (2003): Separation of stop consonants. Proceedings of ICASSP-03, pp. II.749-752.
  
  
• Shao Y. and Wang D.L. (2003): Co-channel speaker identification using usable speech extraction based on multi-pitch tracking. Proceedings of ICASSP-03, vol. II.205-208.
  
  
• Hu G. and Wang D.L. (2003): Monaural speech separation. Proceedings of NIPS-02. (Related Sound Demo.)
  
  
• Roman N., Wang D.L., and Brown G.J. (2002): Localization-based sound segregation. Proceedings of ICASSP-02, pp. 1013-1016.
  
  
• Hu G. and Wang D.L. (2002): Monaural speech segregation based on pitch tracking and amplitude modulation. Proceedings of ICASSP-02, pp. I.553-556.
  
  
• Wu M., Wang D.L., and Brown G.J. (2002): A multi-pitch tracking algorithm for noisy speech. Proceedings of ICASSP-02, pp. I.369-372.
  
  
• Roman N., Wang D.L., and Brown G.J. (2001): Localization-based sound segregation. Proceedings of IJCNN-02, pp. I.2299-2303.
  
  
• Hu G. and Wang D.L. (2002): On amplitude modulation for monaural speech segregation. Proceedings of IJCNN-02, pp. 69-74 .
  
  
• Roman N., Wang D.L., and Brown G.J. (2001): Localization-based sound segregation. Proceedings of IJCNN-02, pp. 2299-2303.
  
  
• Hu G. and Wang D.L. (2002): On amplitude modulation for monaural speech segregation. Proceedings of IJCNN-02, pp. 69-74 .
  
  
• Hu G. and Wang D.L. (2001): Speech segregation based on pitch tracking and amplitude modulation. Proceedings of IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA-01) , pp. 79-82.
  
  
• Palomaki K., Brown G.J., and Wang D.L. (2001): A binaural model for missing data speech recognition in noisy and reverberant conditions. Web Proceedings of Workshop on Consistent and Reliable Acoustic Cues for Sound Analysis.
  
  
• Brown G.J., Barker J., and Wang D.L. (2001): A neural oscillator sound separator for missing data speech recognition. Proceedings of IJCNN-01, pp. 2907-2912.
  
  
• Roman N., Wang D.L., and Brown G.J. (2001): Speech segregation based on sound localization. Proceedings of IJCNN-01, pp. 2861-2866.
  
  
• Hu G. and Wang D.L. (2001): An extended model for speech segregation. Proceedings of IJCNN-01, pp. 1089-1094.
  
  
• Wu M., Wang D.L., and Brown G.J. (2001): Pitch tracking based on statistical anticipation. Proceedings of IJCNN-01, pp. 866-871.
  
  
• Brown G.J. and Wang D.L. (2000): An oscillatory correlation framework for computational auditory scene analysis. Proceedings of NIPS-99, pp. 747-753.
  
  
• Brown G.J. and Wang D.L. (1999): The separation of speech from interferring sounds: an oscillatory correlation approach. Proceedings of IJCNN-99.
  
  
• van der Kouwe A.J.W. and Wang D.L. (1997): Temporal alignment, spatial spread and the linear independence criterion for blind separation of voices. Proceedings of IEEE EMBS, pp. 1994-1996.
  
  
• Brown G.J. and Wang D.L. (1997): Modelling the perceptual separation of concurrent vowels with a network of neural oscillators. Proceedings of ICNN-97, pp. 569-574.
  
  
• Wang D.L. (1994): Auditory stream segregation based on oscillatory correlation. Proceedings of IEEE Conference on Neural Networks for Signal Processing, pp. 624-632.
  
  
• Wang D.L. (1994): An oscillation model of auditory stream segregation. Proceedings of the International Conference on Pattern Recognition , pp. C.198-200. Jerusalem, Israel.
  

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• Wang Y., Han K., and Wang D.L. (2011): Exploring monaural features for classification-based speech segregation. Technical Report OSU-CISRC-11/11-TR37, Department of Computer Science and Engineering, The Ohio State University, Columbus, Ohio, USA.
  
  
• Narayanan A. and Wang D.L. (2011): A CASA based system for SNR estimation. Technical Report OSU-CISRC-11/11-TR36, Department of Computer Science and Engineering, The Ohio State University, Columbus, Ohio, USA.
  
  
• Hartmann W., Narayanan A., Fosler-Lussier E., and Wang D.L. (2011): Nothing doing: Re-evaluating missing feature ASR. Technical Report OSU-CISRC-7/11-TR21, Department of Computer Science and Engineering, The Ohio State University, Columbus, Ohio, USA.
  
  

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Visual Analysis   (Journal Articles   Book Chapters   Conference Papers)

• Yuan J., Wang D.L., and Li R. (2012): Image segmentation using local spectral histograms and linear regression. Pattern Recognition Letters, vol. 33, pp. 615-622.
  
  
• Yuan J., Wang D.L., Wu B., Yan L., and Li R. (2011): LEGION-based automatic road extraction from satellite imagery. IEEE Transactions on Geoscience and Remote Sensing, vol. 49, pp. 4528-4538.
  
  
• Quiles M.G., Wang D.L., Zhao L., Romero R.A.F., and Huang D.-S. (2011): Selecting salient objects in real scenes: An oscillatory correlation model. Neural Networks, vol. 24, pp. 54-64.
  
  
• Liu X. and Wang D.L. (2006): Image and texture segmentation using local spectral histograms. IEEE Transactions on Image Processing, vol. 15, pp. 3066-3077.
  
  
• Wang D.L., Kristjansson A., and Nakayama K. (2005): Efficient visual search without top-down or bottom-up guidance. Perception & Psychophysics, vol. 67, pp. 239-253.
  
  
• Liu X., Srivastava A., and Wang D.L. (2003): Intrinsic generalization analysis of low dimensional representations. Neural Networks, vol. 16, pp. 537-545.
  
  
• Liu X. and Wang D.L. (2003): Texture classification using spectral histograms. IEEE Transactions on Image Processing, vol. 12, pp. 661-670.
  
  
• Cesmeli E., Lindsey D.T., and Wang D.L. (2002): An oscillatory correlation model of visual motion analysis. Perception & Psychophysics, vol. 64, 1191-1217.
  
  
• Liu X. and Wang D.L. (2002): A spectral histogram model for texton modeling and texture discrimination. Vision Research, vol. 42, 2617-2634.
  
  
• Kristjansson A., Wang D.L., and Nakayama K. (2002): The role of priming in conjunctive visual search. Cognition, vol. 85, 37-52.
  
  
• Chen K. and Wang D.L. (2002): A dynamically coupled neural oscillator network for image segmentation. Neural Networks, vol. 15, 423-439.
  
  
• Chen K. and Wang D.L. (2001): Perceiving geometric patterns: from spirals to inside/outside relations. IEEE Transactions on Neural Networks, vol. 12, 1084-1102.
  
  
• Cesmeli E. and Wang D.L. (2001): Texture segmentation using Gaussian-Markov random fields and neural oscillator networks. IEEE Transactions on Neural Networks, vol. 12, 394-404.
  
  
• Liu X., Chen K., and Wang D.L. (2001): Extraction of hydrographic regions from remote sensing images using an oscillator network with weight adaptation. IEEE Transactions on GeoScience and Remote Sensing, vol. 39, 207-211. For a more extensive version see Technical Report OSU-CISRC-4/99-TR12, 1999, Department of Computer and Information Science, The Ohio State University, Columbus, Ohio, USA.
  
  
• Chen K., Wang D.L., and Liu X. (2000): Weight adaptation and oscillatory correlation for image segmentation. IEEE Transactions on Neural Networks, vol. 11, 1106-1123.
  
  
• Cesmeli E. and Wang D.L. (2000): Motion segmentation based on motion/brightness integration and oscillatory correlation. IEEE Transactions on Neural Networks, vol. 11, 935-947.
  
  
• Liu X., Wang D.L., and Ramirez J.R. (2000): Boundary detection by contextual nonlinear smoothing. Pattern Recognition, vol. 33, 263-280.
  
  
• Liu X. and Wang D.L. (1999): Range image segmentation using a LEGION network. IEEE Transactions on Neural Networks, vol. 10, 564-573.
  
  
• Wang D.L. (1999): Object selection based on oscillatory correlation. Neural Networks, vol. 12, 579-592.
  
  
• Shareef N., Wang D.L., and Yagel R. (1999): Segmentation of medical images using LEGION. IEEE Transactions on Medical Imaging, vol. 18, pp. 74-91. Click here for an HTML version, slightly different from the printed version.
  
  
• Wang D.L. and Terman D. (1997): Image segmentation based on oscillatory correlation. Neural Computation, vol. 9, 805-836 (For errata see Neural Computation, vol. 9, 1623-1626, 1997). Also, for an earlier but extended version with detailed analysis see Image segmentation based on oscillatory correlation. Technical Report 19, Center for Cognitive Science, The Ohio State University, Columbus, Ohio, USA. (Related Source Code.)
  

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• Wang D.L. (2003): Visual scene segmentation. In: Arbib M.A. (ed.), The Handbook of Brain Theory and Neural Networks, 2nd Ed., pp. 1215-1219, MIT Press, Cambridge MA.
  
  

• Yuan J., Wang D.L., and Li R. (2011): Image segmentation based on local spectral histograms and linear regression. Proceedings of IJCNN-11, pp. 482-488.
  
  
• Quiles M.G., Wang D.L., Zhao L., Romero R.A.F., and Huang D.-S. (2009): An oscillatory correlation model of object-based attention. Proceedings of IJCNN-09, pp. 2596-2602.
  
  
• Yuan J., Wang D.L., Wu B., Yan L., and Li R. (2009): Automatic road extraction from satellite imagery using LEGION networks. Proceedings of IJCNN-09, pp. 3471-3476.
  
  
• Wu B., Zhou Y., Yan L., Yuan J., Li R. and Wang D.L. (2009): Object detection from HS/MS and multi-platform remote sensing imagery by the integration of biologically and geometrically inspired approaches. Proceedings of ASPRS-09.
  
  
• Liu X., Srivastava A., and Wang D.L. (2003): On intrinsic generalization of low dimensional representations of images for recognition. Proceedings of IJCNN-03, pp. 182-187.
  
  
• Liu X., Wang D.L., Srivastava A. (2001): Image segmentation using local spectral histograms. Proceedings of International Conference on Image Processing, pp. 70-73.
  
  
• Liu X., Wang D.L., Srivastava A. (2001): Image segmentation using local spectral histograms. Proceedings of International Conference on Image Processing, pp. 70-73.
  
  
• Liu X. and Wang D.L. (2001): Appearance-based recognition using perceptual components. Proceedings of IJCNN-01, pp. 1943-1948.
  
  
• Liu X. and Wang D.L. (2001): A spectral histogram model for textons and texture discrimination. Proceedings of IJCNN-01, pp. 1083-1088.
  
  
• Liu X. and Wang D.L. (2000): Spectral histograms for texton modeling and discrimination. Proceedings of the Sixteenth World Computer Congress (Intelligent Information Processing), pp. 202-205.
  
  
• Cesmeli E., Lindsey D.L., and Wang D.L. (2000): An oscillatory correlation model of human motion perception. Proceedings of IJCNN-00, pp. IV.267-IV.272.
  
  
• Liu X. and Wang D.L. (2000): Perceptual organization based on temporal dynamics. Proceedings of NIPS-99, pp. 38-44.
  
  
• Chen K. and Wang D.L. (1999): Perceiving without learning: from spirals to inside/outside relations. Advances in Neural Information Processing Systems 11 (NIPS-98), pp. 10-16.
  
  
• Liu X. and Wang D.L. (1999): Perceptual organization based on temporal dynamics. Proceedings of IJCNN-99.
  
  
• Liu X. and Wang D.L. (1999): A boundary pair representation for perception modeling. Proceedings of IJCNN-99.
  
  
• Cesmeli E. and Wang D.L. (1999): Image segmentation based on motion/luminance integration and oscillatory correlation. Proceedings of IJCNN-99.
  
  
• Chen K. and Wang D.L. (1999): Image segmentation based on a dynamically coupled neural oscillator network. Proceedings of IJCNN-99.
  
  
• Wang D.L. (1998): Object selection by oscillatory correlation Proceedings of IJCNN-98, pp. 1182-1187.
  
  
• Liu X.W., Wang D.L., and Ramirez J.R. (1998): Extracting hydrographic objects from satellite images using a two-layer neural network. Proceedings of IJCNN-98, pp. 897-902.
  
  
• Chen K. and Wang D.L. (1998): Perceiving spirals and inside/outside relations by a neural oscillator network. Proceedings of IJCNN-98, pp.619-624.
  
  
• Cesmeli E., Wang D.L., Lindsey D.L., and Todd J.T. (1998): Motion segmentation using temporal block matching and LEGION. Proceedings of IJCNN-98, 2069-2074.
  
  
• Liu X., Wang D.L., and Ramirez J R. (1998): A two-layer neural network for robust image segmentation and its application in revising hydrographic features. International Archives of Photogrammetry and Remote Sensing, vol. 32, part 3/1, pp. 464-472.
  
  
• Liu X., Wang D.L., and Ramirez J.R. (1998): Oriented statistical nonlinear smoothing filter. Proceedings of the International Conference on Image Processing, vol. 2, pp. 848-852.
  
  
• Cesmeli E. and Wang D.L. (1998), "Gauss Markov Rasgele Alanlari ve Salingan Sinir Aglariyla Doku Bolutlemesi," SIU-98, Ankara TURKEY (in Turkish).
  
  
• Wang D.L. (1997): Object selection by a neural oscillator network. Proceedings of International Conference on Neural Information Processing, pp. 1137-1140.
  
  
• Liu X.W. and Wang D.L. (1997): Range image segmentation using an oscillatory network. Proceedings of ICNN-97, pp. 1656-1660.
  
  
• Cesmeli E. and Wang D.L. (1997): Texture segmentation using Gaussian Markov random fields and LEGION. Proceedings of ICNN-97, pp. 1529-1534.
  
  
• Shareef N., Wang D.L., and Yagel R. (1996): Segmentation of medical data using locally excitatory globally inhibitory oscillator networks. Proceedings of WCNN-96, pp. 1245-1248.
  
  
• Wang D.L. and Terman D. (1996): Image segmentation by neural oscillator networks. Proceedings of ICNN-96, pp. 1534-1539.
  
  
• Wang D.L. and D. Terman. (1995): Image segmentation by a neural oscillator network. Proceedings of International Conference on Neural Information Processing, pp. 722-726.
  
  
• Wang D.L. and D. Terman. (1995): Image segmentation based on oscillatory correlation. Proceedings of WCNN-95, pp. II.521-525.

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Oscillatory Dynamics & Memory  (Journal Articles   Book Chapters   Conference Papers   Technical Reports)

• Campbell S.R., Wang D.L., and Jayaprakash C. (2004): Synchronization rates in classes of relaxation oscillators. IEEE Transactions on Neural Networks, vol. 15, pp. 1027-1038.
  
  
• Wang D.L. and Liu X. (2002): Scene analysis by integrating primitive segmentation and associative memory. IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics, vol. 32, 254-268.
  
  
• Fox J.J., Jayaprakash C., Wang D.L., and Campbell S.R. (2001): Synchronization in relaxation oscillator networks with conduction delays. Neural Computation, vol. 13, 1003-1021.
  
  
• Campbell S.R., Wang D.L., and Jayaprakash C. (1999). Synchrony and desynchrony in integrate-and-fire oscillators. Neural Computation, vol. 11, 1595-1619.
  
  
• Linsay P.S. and Wang D.L. (1998): Fast numerical integration of relaxation oscillator networks based on singular limit solutions. IEEE Transactions on Neural Networks, vol. 9, 523-532. (Related Source Code.)
  
  
• Campbell S.R. and Wang D.L. (1998): Relaxation oscillators with time delay coupling. Physica D, vol. 111, 151-178.
  
  
• Campbell S.R. and Wang D.L. (1996): Synchronization and desynchronization in a network of locally coupled Wilson-Cowan oscillators. IEEE Transactions on Neural Networks, vol. 7(3), 541-554.
  
  
• Wang D.L. (1995): Emergent synchrony in locally coupled neural oscillators. IEEE Transactions on Neural Networks, vol. 6, 941-948.
  
  
• Terman D. and Wang D.L. (1995): Global competition and local cooperation in a network of neural oscillators. Physica D, vol. 81, 148-176. (Related Source Code.)
  
  
• Wang D.L. and Terman D. (1995): Locally excitatory globally inhibitory oscillator networks. IEEE Transactions on Neural Networks, vol. 6(1), 283-286. (Related Source Code.)
  
  
• Wang D.L., Buhmann J., and von der Malsburg C. (1990): Pattern segmentation in associative memory. Neural Computation, vol. 2, 94-106. Reprinted as a book chapter in 1991.
  

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• Wang D.L. (1996): Synchronous oscillations based on lateral connections. In Sirosh J., Miikkulainen R., and Choe Y. (eds.), Lateral Connections in the Cortex: Structure and Function.
  
  

• Wang D.L. (2004): A comparison of CNN and LEGION networks. Proceedings of IJCNN-04, pp. 1735-1740.
  
  
• Campbell S. and Wang D.L. (1998): Synchrony and desynchrony in integrate-and-fire oscillators. Proceedings of IJCNN-98, pp. 1498-1503.
  
  
• Campbell S. and Wang D.L. (1997): Relaxation oscillator networks with time delays. Proceedings of ICNN-97, pp. 645-650.
  
  
• Campbell S. and Wang D.L. (1996): Loose synchrony in networks of relaxation oscillators with time delays. Proceedings of WCNN-96, pp. 717-720.
  
  
• Campbell S. and Wang D.L. (1996): Loose synchrony in relaxation oscillator networks with time delays. Proceedings of ICNN-96, pp. 828-833.
  
  
• Campbell S. and D.L. Wang (1995): Relaxation oscillators with time delay coupling. Proceedings of WCNN-95, pp. I. 258-261.
  
  
• D.L. Wang and D. Terman (1994): Synchrony and desynchrony in neural oscillator networks. Advances in Neural Information Processing Systems 7 (NIPS-94), pp. 199-206.
  
  
• D.L. Wang and D. Terman (1994): Locally excitatory globally inhibitory oscillator networks: Theory and application to scene segmentation. Proceedings of the 23rd Artificial Intelligence and Pattern Recognition Workshop, SPIE Proceedings 2368, pp. 624-632.
  
  
• Wang D.L. (1994): Modeling global synchrony in the visual cortex by locally coupled neural oscillators. In: Eeckman F.H. (ed.), Proceedings of CNS-93, pp. 109-114, Kluwer.
  
  
• Wang D.L. and Terman D. (1994): Locally excitatory globally inhibitory oscillator networks: Theory and application to pattern segmentation. Proceedings of ICNN-94, pp. 945-950. Orlando, FL.
  
  
• Campbell S. and Wang D.L. (1994): Synchronization and desynchronization in locally coupled Wilson-Cowan oscillators. Proceedings of ICNN-94, pp. 964-969.
  
  
• Wang D.L. and Terman D. (1994): Locally excitatory globally inhibitory oscillator networks. Proceedings of WCNN-94, pp. IV. 745-750. San Diego, CA.
  
  
• Wang D.L. (1993): Modeling global synchrony in the visual cortex by locally coupled neural oscillators. Proceedings of the 15th Annual Conference of the Cognitive Science Society, pp. 1058-1063. Boulder, CO.
  
• Wang D.L. (1993): Global phase synchrony in the visual cortex: A local mechanism. Proceedings of WCNN-93, pp. I29-I32.

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• Wang D.L. (2006): LEGION: locally excitatory globally inhibitory oscillator networks. Scholarpedia, 1(9): 1620.
  
  

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Temporal Processing

• Wang D.L. and Yuwono B. (1996): Incremental learning of complex temporal patterns. IEEE Transactions on Neural Networks, vol 7, 1465-1481.
  
  
• Wang D.L., Liu, X.M., and Ahalt, S.C. (1996): On temporal generalization of simple recurrent networks. Neural Networks, vol. 9, 1099-1118.
  
  
• Wang D.L. and Yuwono B. (1995): Anticipation-based temporal pattern generation. IEEE Transactions on Systems, Man, and Cybernetics, vol. 25, 615-628.
  
  
• Wang D.L. and Arbib M.A. (1993): Timing and chunking in processing temporal order. IEEE Transactions on Systems, Man, and Cybernetics, vol. 23, 993-1009.
  
  
• Wang D.L. and Arbib M.A. (1990): Complex temporal sequence learning based on short-term memory. Proceedings of the IEEE, vol. 78, 1536-1543.
  
  

• Wang D.L. (2003): Temporal pattern processing. In: Arbib M.A. (ed.), The Handbook of Brain Theory and Neural Networks, 2nd Ed., pp. 1163-1167, MIT Press, Cambridge MA.
  
  
• Wang D.L. (2000): Anticipation model for sequential learning of complex sequences. In Run R. and Giles C.L. (eds.), Sequence Learning, LNAI 1828, pp. 53-79, Springer-Verlag, Berlin Heidelberg.
  
  
• Wang D.L. (1995): Temporal pattern processing. In: Arbib M.A. (ed.), The Handbook of Brain Theory and Neural Networks, pp. 967-971, MIT Press, Cambridge MA.
  
  

• Wang D.L. and Yuwono B. (1996): A neural model of sequential memory. Proceedings of ICNN-96, pp. 828-833.
  
  
• Liu X.M., D.L. Wang and S.C. Ahalt (1995): On the temporal generalization capability of simple recurrent networks. Proceedings of the 1995 SPIE Conference on Applications and Science of Artificial Neural Networks IV. Orlando FL, pp. 392-403.
  
  
• Wang D.L. and Yuwono B. (1994): Temporal pattern generation based on anticipation. Proceedings of ICNN-94, pp. 3148-3153.
  
  
• Wang D.L. and Yuwono B. (1994): Self-organization of temporal pattern generation based on anticipation. Proceedings of WCNN-94, pp. IV. 149-154.
  
  
• Wang D.L. (1993): A neural architecture for complex temporal pattern generation. Proceedings of the 3rd International Conference for Young Computer Scientists, pp. 3.25-3.38, Beijing.
  
  
• Wang D.L. and Arbib M.A. (1991): A neural model of temporal sequence generation with interval maintenance. Proceedings of the 13th Annual Conference of the Cognitive Science Society, pp. 944-948. Chicago, IL.
  
  
• Wang D.L. and King I. (1988): Three neural models which process temporal information. In Proceedings of the First Annual Conference of the International Neural Network Society, pp.227, Boston, MA.

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Amphibian Learning

• Wang D.L. (1994): Modeling neural mechanisms of vertebrate habituation: Locus specificity and pattern discrimination. Journal of Computational Neuroscience, vol. 1(4), 285-299.
  
  
• Wang D.L. (1993): A neural model of synaptic plasticity underlying short-term and long-term habituation. Adaptive Behavior, vol. 2, 111-129.
  
  
• Wang D.L. and Arbib M.A. (1992): Modeling the dishabituation hierarchy in toads: the role of the primordial hippocampus. Biological Cybernetics, vol. 67, 535-544.
  
  
• Wang D.L. and Ewert J.-P. (1992): Configurational pattern discrimination responsible for dishabituation in common toads Bufo bufo (L.): behavioral tests of the predictions of a neural model. Journal of Comparative PhysiologyA, vol. 170, 317-325.
  
  
• Wang D.L. and Arbib M.A.(1991): How does the toad's visual system discriminate different worm-like stimuli? Biological Cybernetics, vol. 64, 251-261.
  
  

• Wang D.L. (1995): Habituation. In: Arbib M.A. (ed.), The Handbook of Brain Theory and Neural Networks, pp. 441-444, MIT Press.
  
  
• Arbib M.A. and Wang D.L. (1991): Computational models of visual pattern discrimination in common toads. In: Ewert J.-P. and Werner H. (eds), Models of Brain Function and Artificial Neuronal Nets, pp. 67-97, GhK University Edition, Kassel, Germany.
  
  
• Wang D.L., Arbib M.A., and Ewert J.-P. (1991): Dishabituation hierarchies for visual pattern discrimination in toads: A dialog between modeling and experimentation. In: Arbib M.A. and Ewert J.-P. (eds), Visual Structures and Integrated Functions, Research Notes in Neural Computing, pp. 427-441, Springer-Verlag, Berlin.
  
  

• Wang D.L. (1993): Modeling stimulus specific habituation: The role of primordial hippocampus. In: Eeckman F.H. and Bower J.M. (eds.), Proceedings of CNS-92, pp. 103-107, Kluwer, Boston.
  
  
• Wang D.L. and Arbib M.A. (1991): Hierarchical dishabituation of visual discrimination in toads. In: Meyer J.-A. and Wilson S. (eds), Simulation of adaptive behavior: From animals to animats, pp. 77-88, MIT Press, Cambridge, MA.
  
  
• Wang D.L. and Arbib M.A. (1991): A neural model of temporal sequence generation with interval maintenance. Proceedings of the 13th Annual Conference of the Cognitive Science Society, pp. 944-948. Chicago, IL.
  
  
• Wang D.L. and Arbib M.A. (1990): Mechanisms of pattern discrimination in the toad's visual system. IJCNN-90, pp. II.477-482. San Diego, CA.
  
  
• Wang D.L. and Arbib M.A. (1990): A computational model of visual pattern discrimination in toads. Proceedings of the 12th Annual Conference of the Cognitive Science Society, pp. 598-605. Cambridge, MA.
  

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Others

• Wang D.L. and Hsu C.C. (1990): SLONN: A simulation language for modeling of neural networks. Simulation, vol. 55, 69-83.
  
  
• Wang D.L. and Hsu C.C. (1988): A neuron model for computer simulation of neural networks. Acta Automatica Sinica (both in Chinese and in English), vol. 14, 424-430.
  
  
• Hsu C.C. and Wang D.L. (1988): SLONN: A simulation language for neural networks and its implementation. Journal of Computers (in Chinese), vol. 11, 741-749.
  
  
• Wang D.L. (1986): A neuron model based on information processing of the nervous system. Cognitive Science (in Chinese), January 1986, 81-88.
  
  

• Wang D.L. (1986): Computer simulation. In: Mao Y.S. (ed), Handbook for Modern Engineers (in Chinese), pp. 615-617, Beijing Press, Beijing, China. This book won the 1986 National Award of Excellent and Best-selling Book of Science and Technology.
  
  

• Wang D.L. (1989): An extended model of the Neocognitron for pattern partitioning and pattern composition. Proceedings of IJCNN-90, pp. II.267-274. Washington, DC.
  
  

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