Musical Genre Classification

1
Musical Genre Classification

• Prepared by Elliot Sinyor
• for MUMT 611
• March 3 2005

2
Table of Contents

• What is Genre
• Approaches to Genre Classification
• Manual
• Automatic
• Related Work
• Soltau 1998
• Tzanetakis Cook
• prescriptive approach
• Pachet et al. 2001
• emergent approach
• Conclustion

3
What is Genre

• A way of describing what an item shares with
  other items as well as what differentiates it
  from other items
  
• From Aucouturier and Pachet
• The genesis of genre is therefore to be found in
  our natural and irrepressible tendency to
  classify
  

4
What is Genre

• AP separate into two broad categories
• Intentional vs. Extensional

5
What is Genre - Intentional

• More subjective
• Relies on collective cultural knowledge
• Social/Historical context
• Eg 60s hippies brit-pop

6
Problems with Genre

• What do the names mean
• Rock Pop
• No fixed semantics
• Amazon.com Genres by
• Period (60s pop)
• Topic (love song)
• Country of Origin (Japanese music)
• Genre is based on extrinsic habits rather than
  intrinsic properties
  
• To a French person C. Aznavour Variety
• To an English person C. Aznavour French

7
What is Genre - Extensional

• Analysis-based
• Describes the music itself
• Tempo timbre pitch language etc.
• (sometimes) easier for automatic genre
  classification systems
  
• Eg fast rock mellow classical.

8
Problems with Genre

• What granularity to use
• By Artist
• Please Please Me vs. Sgt. Pepper
• By Album
• Revolution 9 vs. Helter Skelter vs. Mother
  Natures Son
  
• Does work for broad categories
• Rock vs. Classical

9
Problems with Genre

• Does anyone agree
• Allmusic.com 531 genres
• Amazon.com 719 genres
• Mp3.com 430 genres
• Only 70 words common to the three taxonomies
  (Pachet and Cazaly 2000)
  

10
Approaches to Genre Classification

• Manual
• Musicologists and Elbow Grease
• Automatic
• Prescriptive
• Signal Analysis based
• Emergent
• Uses existing human-entered meta-data to group
  things together

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Manual Classification

• Dannenberg et al. 2001
• To build a taxonomy for MSN Music Search Engine
• Few hundred thousand songs
• Hired full-time musicologists
• Took 30 human years
• The details of the taxonomy and the design
  methodology are however not available
  

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Manual Classification

• Pachet and Cazaly 2001 (CUIDADO)
• Separated descriptors country instrumentation
  artist type etc
  
• _____ Rock
• Too sensitive to musical evolution difficult to
  build difficult to maintain
  
• Changed focus to artists instead of titles.
• In any case insufficient for millions of
  titles
  

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Prescriptive History

• Originated from Speech Recognition work
• Most Classified audio from TV into
  music/speech/environmental
  

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Prescriptive Various Approches

• Saunders 1996
• Thresholding/ZCR techniques
• Scheirer and Slaney 1997
• Multiple features and statistical pattern
  recognition
  
• Kimber and Wilcox 1996
• MFCCs and HMM to classify into music speech
  laughter and nonspeech
  
• Zhang and Kuo 2001
• Rule-based system for classifying audio from
  movies and TV into
  
• Non-music
• Pure speech non harmonic environmental sound
• Music
• Harmonic environmental sound pure music song
  speech with music environmental sound with music

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Prescriptive

• Soltau et al 1998 Recognition of Music Types
• New approach Explicit Time Modelling with
  Neural Network (ETM-NN)
  

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Prescriptive Soltau et al. 1998

• In a nutshell
• Transform acoustic signal into sequence of
  abstract sonic events
  
• Look at statistical patterns derived from
  sequences combine into vectors that represent
  temporal structure
  
• 3-layer feed-forward network

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Prescriptive Soltau et al. 1998

• Experimental Results
• 3 hours of data (360 samples 30 sec each)
• Rock Pop Techno Classical
• 67 training 13 cross-validation 20
  evaluation
  
• Compare ETM-NN vs. HMM using cepstral
  coefficients
  
• ETM-NN 86.1 HMM 79.2

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Musical Genre Classification of Audio Signals
Tzanetakis and Cook 2002

• Timbral Texture Features
• Spectral Centroid Rolloff Flux ZCR MFCC (5
  coefficients)
  
• Analysis Window features should be stable 23
  ms
  
• Texture Window minimum amount of time to
  identify a texture 43 analysis windows 1
  sec.
  
• Memory of the past
• Statistics (means variances) of features over
  the texture window
  

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Musical Genre Classification of Audio Signals
Tzanetakis and Cook 2002

• Timbral Texture Features
• Spectral Centroid Rolloff Flux ZCR MFCC (5
  coefficients)
  
• Analysis Window features should be stable 23
  ms
  
• Texture Window minimum amount of time to
  identify a texture 43 analysis windows 1
  sec.
  
• Memory of the past

20
Timbral Texture Feature Vector

• Statistics (means variances) of features over
  the texture window
  
• 19 dimensions
• (m v) of SC SF SR ZCR 5 MFCC
• low energy feature fraction of analysis windows
  over texture window that have less than average
  RMS energy
  
• Eg vocal music will have more silences

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Rhythmic Content Beat Histogram

• Pitch detection with larger periods
• Use DWT to divide signal into frequency bands

22
Rhythmic Content Beat Histogram
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Features taken from BH

• A0 A1 relative amplitude (divided by the sum of
  amplitudes) of the first and second histogram
  peak
  
• RA ratio of the amplitude of the second peak
  divided by the amplitude of the first peak
  
• P1 P2 period of the first second peak in bpm
• SUM overall sum of the histogram (indication of
  beat strength).

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Pitch Content Features

• Used enhanced Autocorrelation function to create
  folded (1 octave) and unfolded (all notes) pitch
  histograms
  
• Mapped to MIDI note numbers
• Folded- common pitch classes
• Unfolded pitch range
• Higher for jazz classical
• FA0 UP0 UP1 IPO1 (interval between 2 highest
  peaks) SUM
  

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Experimental Results

• Used GMM classifiers with diagonal covariance
  matrices

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Experimental Results
27
Prescriptive Some Results (from AP)

• Gaussian and Gaussian Mixture Models used in 48
  of successful classification in Ermolinskiy et
  al.(2001) using 100 songs for each class in the
  training phase. This result has to be taken with
  care since the system uses only pitch
  information.
• Tzanetakis et al. (2001) achieves a rather
  disappointing 57 but also reports 75 in
  Tzanetakis and Cook (2000a) using 50 songs per
  class.
• 90 in Lambrou and Sandler (1998) and 75 in
  Deshpande et al. (2001) on a very small training
  and test set which may not be representative.
  
• Pye (2000) reports 90 on a total set of 175
  songs.
  
• Soltau (1998) reports 80 with HMM 86 with NN
  with a database of 360 songs.

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Emergent

• Unlike Prescriptive it is unsupervised
• Based on cultural similarity from text
  documents
  
• Possible to extract similarities that are not
  possible to extract from the audio signal
  

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Emergent Collaborative Filtering

• Shardanand Maes 1995 Pestoni et al. 2001
• There are patterns in tastes
• Have users rate their music match like-tasted
  users recommend unknown items to users
  
• Problems
• Good for naïve profiles bad for broad eclectic
  tastes
  
• Favors middle of the road liked by large
  proportion
  
• Only works some time after release of new music

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Emergent co-concurrent analysis

• Pachet et al. 2001
• Looks at online text sources for co-occurrences
  of songs (aka data mining)
  
• If 2 items appear in the same context (or share a
  common neighbour) this is evidence of some sort
  of similarity

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Co-occurrence

• Pachet et al. 2001 Musical Data Mining for
  Electronic Music Distribution
  
• Sources used
• Track listing databases (CDDB)
• Mostly look at compilations of similar artists
• Radio Show playlists
• Specialty programs better than daily commercial
  radio
  
• Lists made by experts

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Co-occurrence

• Build a matrix where
• Value of entry (i j) corresponds to number of
  times title i co-occurs with title j
  
• What about indirect co-occurrence
• Eg Eleanor Rigby/Good Vibrations Good
  Vibrations/God Only Knows Eleanor Rigby God
  Only Knows
  
• Correlation measure using co-variance matrices
  of each title
  

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Experimental Results

• Using distance functions use Ascendant
  Hierarchical Clustering
  
• Used CDDB database compared co-occurrence vs
  correlation
  
• Manually examined results
• 70 of clusters had interesting similarities

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Experimental Results
35
Challenges

• Name format is not strictly enforced
• The Beatles Beatles The Beatles
• Difficult to characterize the nature of the
  similarities
  
• Cover songs can sound nothing alike

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Conclusions and Future directions

• It seems that samples of Techno and Classical
  are easy to discriminate Rock and Pop seems to
  be more difficult Soltau et al 1998
  
• Manual classification not feasible
• Why not combine prescriptive/emergent techniques