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I have to design a classification model for a Music OCR project (i.e. Optical Music Recognition): I don't need free tools or already working solutions since I need a detailed design for a brand new solution, with a very high target accuracy.

I'm dealing with NON-handwritten music scores, without projective distortion and of course the classifier is only a subsystem of the final software to be designed.

Many symbols will have to be recognized (i.e. notes, rests, alterations, keys, tempo, dynamics, etc), for a total amout of at least 25 classes: that's why I thought about using a multi-level SVN approach (i.e. hierarchical support vector machine).

I can therefore train very specialized models to distinguish among few classes with specific features (i.e. first 'notes&rests' vs 'others', then all the way down to '1/8 note' vs '1/16 note', etc).

Looking at literature and free available tools, I found out that training is performed using only graphical data (i.e. N different versions for each symbol) with the same set of features.

Do you think it could be useful to train my models with non-graphical data, such as spatial and environmental information about each symbol? (i.e. relative position in the bar, surrounding symbols, etc)

This would require a parsable dataset of real music (MusicXML or MIDI) from which I can train these statistics and use them as features for the learning process.

Another way of doing this could be keeping this non-graphical training apart and building a separated predictor that could then be integrated with the classifier in order to better estimate the current symbol class.

What would be the best solution? Do you see any other approach involving non-graphical information?

Thank you all.

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