Classification of Music Genres Based on Music Separation into Harmonic and Drum Components

Rosner, A.; Schuller, B.; Kostek, B.

doi:10.2478/aoa-2014-0068

Artykuł - szczegóły

Tytuł artykułu

Classification of Music Genres Based on Music Separation into Harmonic and Drum Components

Autorzy

Rosner A. , Schuller B. , Kostek B.

Treść / Zawartość

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DOI

10.2478/aoa-2014-0068

Warianty tytułu

Języki publikacji

Abstrakty

This article presents a study on music genre classification based on music separation into harmonic and drum components. For this purpose, audio signal separation is executed to extend the overall vector of parameters by new descriptors extracted from harmonic and/or drum music content. The study is performed using the ISMIS database of music files represented by vectors of parameters containing music features. The Support Vector Machine (SVM) classifier and co-training method adapted for the standard SVM are involved in genre classification. Also, some additional experiments are performed using reduced feature vectors, which improved the overall result. Finally, results and conclusions drawn from the study are presented, and suggestions for further work are outlined.

Słowa kluczowe

music information retrieval musical sound separation drum separation music genre classification support vector machine (SVM) co-training nonnegative matrix factorization

Wydawca

Instytut Podstawowych Problemów Techniki PAN
Komitet Akustyki PAN
Polskie Towarzystwo Akustyczne

Czasopismo

Archives of Acoustics

Rocznik

2014

Tom

Vol. 39, No. 4

Strony

629--638

Opis fizyczny

Bibliogr. 41 poz., tab., wykr.

Twórcy

autor

Rosner A.

aldona.rosner@polsl.pl

Institute of Informatics, Silesian University of Technology Akademicka 16, 44-100 Gliwice, Poland

autor

Schuller B.

schuller@tum.de

Technische Universit¨at M¨unchen Machine Intelligence and Signal Processing Group 80333 M¨unchen, Germany
Imperial College London, Department of Computing SW7 2AZ, London, United Kingdom

autor

Kostek B.

bokostek@audioacoustics.org

Audio Acoustics Laboratory, Faculty of Electronics, Telecommunications and Informatics Gdańsk University of Technology Narutowicza 11/12, 80-233 Gdańsk, Poland

Bibliografia

1. BEAUCHAMP J. (2011), Perceptually Correlated Parameters of Musical Instrument Tones, Archives of Acoustics, 36, 2, 225-238.
2. BLUM A., MITCHELL T. (1998), Combining labeled and unlabeled data with co-training, Proceedings of the Workshop on Computational Learning Theory, Morgan Kaufmann, 92-100.
3. BREGMAN A. (1990), Auditory scene analysis: the perceptual organization of sound, MIT Press.
4. CASEY M., WESTNER A. (2000), Separation of mixed audio sources by independent subspace analysis, Proceedings of International Computer Music Conference, 154-161, Berlin.
5. DE CHEVEIGNE A. (1993), Separation of concurrent harmonic sounds: Fundamental frequency estimation and a time-domain cancellation model of auditory processing, J. Acoust. Soc. Am..
6. DZIUBINSKI M., DALKA P., KOSTEK B. (2005), Estimation of Musical Sound Separation Algorithm Effectiveness Employing Neural Networks, J. Intel. Inform. Systems, 24, 2, 133-157.
7. EWERET S., PRADO B., MULLER M., PLUMBLEY M. (2014), Score-Informed Source Separation for Musical Audio Recordings, IEEE Signal Proc. Magazine, 116- 124.
8. GERBER T., DUTASTA M., GIRIN L., FEVOTTE C. (2012), Professionally-produced music separation guided by covers, 13th International Society for Music Information Retrieval Conference.
9. GILLET O., RICHARD G. (2008), Transcription and separation of drum signals from polyphonic music,IEEE Transactions on Audio, Speech and Language Processing, 16, 529-540.
10. GlJNAWAN D., SEN S. (2012), Separation of Harmonic Musical Instrument Notes Using Spectro-Temporal Modeling of Harmonic Magnitudes and Spectrogram Inversion with Phase Optimization, JAES, 60, 12, 1004- 1014.
11. HERRERA P., AMATRIAIN X., BATLLE E., SERRA X. (2000), Towards instrument segmentation for music content description: a critical review of instrument classification techniques, Proceedings of International Symp. on Music Information Retrieval, Plymouth, Massachusetts.
12. ISMIR, Intern. Conference on Music Information Retrieval website (http://ismir2014.ismir.net).
13. KLAPURI A. (2001), Multipitch estimation and sound separation by the spectral smoothness principle, Proceedings of IEEE International Conference on Acoustics, Speech and Signal Processing, pp. 3381-3384, Salt Lake City.
14. KLECZKOWSKI P. (2012), Perception of Mixture of Musical Instruments with Spectral Overlap Removed, Archives of Acoustics, 37, 3, 355-363.
15. KOSTEK B. (1999), Soft Computing in Acoustics, Applications of Neural Networks, Fuzzy Logic and Rough Sets to Musical Acoustics, Studies in Fuzziness and Soft Computing, Physica Verlag.
16. KOSTEK B. (2004), Musical Instrument Classification and Duet Analysis Employing Music Information Retrieval Techniques, Proceedings of the IEEE, 92, 4, 712-729.
17. KOSTEK B. (2005), Perception-Based Data Processing in Acoustics. Applications to Music Information Retrieval and Psychophysiology of Hearing, Springer Verlag, Series on Cognitive Technologies, Berlin, Heidelberg, New York.
18. KOSTEK B. (2013), Music Information Retrieval in Music Repositories, Chapter 17, in: Rough Sets and Intelligent Systems (Skowron A., Suraj Z., Eds.), Vol. 1, ISRL, 42, 463-489, Springer Verlag, Berlin Heilder- berg.
19. KOSTEK B., CZYZEWSKI A. (2001), Representing Musical Instrument Sounds for Their Automatic Classification, J. Audio Eng. Soc., 49, 9, 768-785.
20. KOSTEK B., DZIUBINSKI M. (2010), Evaluation of the separation algorithm performance employing ANNs, 34, Springer Verlag, in: Advances in Intelligent and Soft Computing, 80, 27-37, Berlin, Heidelberg.
21. KOSTEK B., HOFFMANN P. (2014), Music Data Processing and Mining in Large Databases for Active Media, Active Media Technology, 2014, LNCS 8610, pp. 85-95, Springer International (Slezak et al., Eds.).
22. KOSTEK B., KACZMAREK A. (2013), Based on Based on Multidimensional Description and Similarity Measures, Fundamenta Informaticae, 1001-1017, 1001, DOI 10.3233/FI-2012-0000.
23. KOSTEK B., KUPRYJANOW A., ZWAN P., JIANG W., RAS Z., WOJNARSKI M., SWIETLICKA J. (2011), Report of the ISMIS 2011 Contest: Music Information Retrieval, Foundations of Intelligent Systems, ISMIS 2011, Springer Verlag, 715-724, Berlin, Heidelberg.
24. LEE D.D., SEUNG H.S. (1999), Learning the parts of objects by non-negative matrix factorization, Nature, 401, 788-791.
25. LIUTKUS A., PINEL J., BADEAU R., GIRIN L., RICHARD G. (2012), Informed source separation through spectrogram coding and data embedding, Signal Processing, 92, 8, 1937-1949.
26. LOHRI A., CARRAL S., CHATZIIOANNOU V. (2012), Combination Tones in Violins, Archives of Acoustics, 4, 727-740.
27. MARXER R., JANER J. (2013), Study of regularizations and constraints in NMF-based drums monaural separation, International Conference on Digital Audio Effects Conference (DAFx-13).
28. MlKA D., KLECZKOWSKI P. (2011), ICA-based Single Channel Audio Separation: New Bases and Measures of Distance, Archives of Acoustics, 36, 2, 311-331.
29. NIKUNEN J., VlRTANEN T., VlLERMO M. (2012), Multichannel Audio Upmixing by Time-Frequency Filtering Using Non-Negative Tensor Factorization, JAES, 60, 10, 794-806.
30. RAS Z., WIECZORKOWSKA A. (2010), Advances in Music Information Retrieval, Springer Publishing Company.
31. ROSNER A., MICHALAK M., KOSTEK B. (2013a), A Study on Influence of Normalization Methods on Music Genre Classification Results Employing kNN Algorithm, Proceedings 9th National Conference on Databases: Applications and Systems, pp. 411-423, Us- tron.
32. ROSNER A., WENINGER F., SCHULLER B., MICHALAK M., KOSTEK B. (2013b), Influence of Low-Level Features Extracted from Rhythmic and Harmonic Sections on Music Genre Classification, ICMMI’2013, Gruca A., Czachrski T., Kozielski S. [Eds.], Man- Machine Interactions 3, volume 242 of Advances in Intelligent Systems and Computing (AISC), pages 467- 473, Springer.
33. RUMP H., MIYABE S., TSUNOO E., ONO N., SAGA- MA S. (2010), Autoregressive MFCC Models For Genre Classification Improved By Harmonic-Percussion Separation, Proceedings of the 11th International Society for Music Information Retrieval Conference, pp. 87-92, Utrecht.
34. SERRA X., SMITH J.O. (1990), Spectral modeling synthesis: a sound analysis/synthesis system based on a deterministic plus stochastic decomposition, Computer Music Journal, 14, 4, 12-24.
35. SCHULLER B., LEHMANN A., WENINGER F., EY- BEN F., RlGOLI G. (2009), Blind Enhancement of the Rhythmic and, Harmonic Sections by NMF: Does it help?, NAG/DAGA 2009, Rotterdam, The Netherlands, Sofianos S., Ariyaeeinia A., Polfreman R., So- tudeh R. (2012) H-Semantics: a Hybrid Approach to Singing Voice Separation, JAES, 60, 10, 831-841.
36. TERASAWA H., BERGER J., MAKINO S. (2012), In Search of a Perceptual Metric for Timbre: Dissimilarity Judgments among Synthetic Sounds with MFCC- Derived Spectral Envelopes, JAES, 60, 9, 674-685.
37. TOLONEN T. (1999), Methods for Separation of Harmonic Sound Sources using Sinusoidal Modeling, 106th Audio Engineering Society Conv., Munich.
38. WACK N., GUAUS E., LAURIER C., MEYERS O., MARXER R., BOGDANOV D., SERRA J., HERRERA P. (2009), Music Type Groupers (Mtg): Generic Music Classification Algorithms, International Society for Music Information Retrieval.
39. WENINGER F., DURRIEU J., EYBEN F., RICHARD G., SCHULLER B. (2011), Combining monaural source separation with long short-term memory for increased robustness in vocalist gender recognition, Proceedings of International Conference on Acoustics Speech and Signal Processing, pp. 2196-2199, IEEE, Prague, Czech Republic.
40. WENINGER F., SCHULLER B. (2012), Optimization and, parallelization of monaural source separation algorithms in the openblissart toolkit, J. Signal Processing Systems, 69(3), 267-277.
41. WlECZORKOWSKA A., KUBERA E., KUBIK-KOMAR A. (2011), Analysis of Recognition of a Musical Instrument in Sound Mixes Using Support Vector Machines, Fundamenta Informaticae, 107, 1.

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