Assistive Model to Generate Chord Progressions Using Genetic Programming with Artificial Immune Properties
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @Article{navarro-caceres:2020:AS,
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author = "Maria Navarro-Caceres and
Javier Felix {Merchan Sanchez-Jara} and
Valderi {Reis Quietinho Leithardt} and Raul Garcia-Ovejero",
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title = "Assistive Model to Generate Chord Progressions Using
Genetic Programming with Artificial Immune Properties",
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journal = "Applied Sciences",
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year = "2020",
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volume = "10",
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number = "17",
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keywords = "genetic algorithms, genetic programming",
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ISSN = "2076-3417",
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URL = "https://www.mdpi.com/2076-3417/10/17/6039",
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DOI = "doi:10.3390/app10176039",
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abstract = "In Western tonal music, tension in chord progressions
plays an important role in defining the path that a
musical composition should follow. The creation of
chord progressions that reflects such tension profiles
can be challenging for novice composers, as it depends
on many subjective factors, and also is regulated by
multiple theoretical principles. This work presents
ChordAIS-Gen, a tool to assist the users to generate
chord progressions that comply with a concrete tension
profile. We propose an objective measure capable of
capturing the tension profile of a chord progression
according to different tonal music parameters, namely,
consonance, hierarchical tension, voice leading and
perceptual distance. This measure is optimised into a
Genetic Program algorithm mixed with an Artificial
Immune System called Opt-aiNet. Opt-aiNet is capable of
finding multiple optima in parallel, resulting in
multiple candidate solutions for the next chord in a
sequence. To validate the objective function, we
performed a listening test to evaluate the perceptual
quality of the candidate solutions proposed by our
system. Most listeners rated the chord progressions
proposed by ChordAIS-Gen as better candidates than the
progressions discarded. Thus, we propose to use the
objective values as a proxy for the perceptual
evaluation of chord progressions and compare the
performance of ChordAIS-Gen with chord progressions
generators.",
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notes = "also known as \cite{app10176039}",
- }
Genetic Programming entries for
Maria Navarro-Caceres
Javier Felix Merchan Sanchez-Jara
Valderi Reis Quietinho Leithardt
Raul Garcia-Ovejero
Citations