Music Genre Classification Based on Chroma Features and Deep Learning

Among the many music information retrieval (MIR) tasks, music genre classification is noteworthy. The categorization of music into different groups that came to existence through a complex interplay of cultures, musicians, and various market forces to characterize similarities between compositions and organize collections is known as a music genre. The past researchers extracted various hand-crafted features and developed classifiers based on them. But the major drawback of this approach was the requirement of field expertise. However, in recent times researchers, because of the remarkable classification accuracy of deep learning models, have used similar models for MIR tasks. Convolutional Neural Net- work (CNN), Recurrent Neural Network (RNN), and the hybrid model, Convolutional - Recurrent Neural Network (CRNN), are such prominently used deep learning models for music genre classification along with other MIR tasks and various architectures of these models have achieved state-of-the-art results. In this study, we review and discuss three such architectures of deep learning models, already used for music genre classification of music tracks of length of 29-30 seconds. In particular, we analyze improved CNN, RNN, and CRNN architectures named Bottom-up Broadcast Neural Network (BBNN) [1], Independent Recurrent Neural Network (IndRNN) [2] and CRNN in Time and Frequency dimensions (CRNN- TF) [3] respectively, almost all of the architectures achieved the highest classification accuracy among the variants of their base deep learning model. Hence, this study holds a comparative analysis of the three most impressive architectural variants of the main deep learning models that are prominently used to classify music genre and presents the three architecture, hence the models (CNN, RNN, and CRNN) in one study. We also propose two ways that can improve the performances of the RNN (IndRNN) and CRNN (CRNN-TF) architectures.

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Music Genre Classification using Multimodal Deep Learning

HCI Korea 2016 ◽

10.17210/hcik.2016.01.389 ◽

2016 ◽

Author(s):

Seonhoon Kim ◽

Daesik Kim ◽

Bongwon Suh

Keyword(s):

Deep Learning ◽

Genre Classification ◽

Music Genre ◽

Music Genre Classification

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Multimodal Deep Learning for Music Genre Classification

Transactions of the International Society for Music Information Retrieval ◽

10.5334/tismir.10 ◽

2018 ◽

Vol 1 (1) ◽

pp. 4-21 ◽

Cited By ~ 10

Author(s):

Sergio Oramas ◽

Francesco Barbieri ◽

Oriol Nieto ◽

Xavier Serra

Keyword(s):

Deep Learning ◽

Genre Classification ◽

Music Genre ◽

Music Genre Classification

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A Middle-Level Learning Feature Interaction Method with Deep Learning for Multi-Feature Music Genre Classification

Electronics ◽

10.3390/electronics10182206 ◽

2021 ◽

Vol 10 (18) ◽

pp. 2206

Author(s):

Jinliang Liu ◽

Changhui Wang ◽

Lijuan Zha

Keyword(s):

Deep Learning ◽

Middle Level ◽

Feature Model ◽

Feature Interaction ◽

Interaction Method ◽

Research Attention ◽

Genre Classification ◽

Music Genre ◽

The Impact ◽

Music Genre Classification

Nowadays, music genre classification is becoming an interesting area and attracting lots of research attention. Multi-feature model is acknowledged as a desirable technology to realize the classification. However, the major branches of multi-feature models used in most existed works are relatively independent and not interactive, which will result in insufficient learning features for music genre classification. In view of this, we exploit the impact of learning feature interaction among different branches and layers on the final classification results in a multi-feature model. Then, a middle-level learning feature interaction method based on deep learning is proposed correspondingly. Our experimental results show that the designed method can significantly improve the accuracy of music genre classification. The best classification accuracy on the GTZAN dataset can reach 93.65%, which is superior to most current methods.

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Music genre classification and music recommendation by using deep learning

Electronics Letters ◽

10.1049/el.2019.4202 ◽

2020 ◽

Vol 56 (12) ◽

pp. 627-629

Author(s):

A. Elbir ◽

N. Aydin

Keyword(s):

Deep Learning ◽

Music Recommendation ◽

Genre Classification ◽

Music Genre ◽

Music Genre Classification

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Music Genre Classification Using Deep Learning with KNN

International Journal of Advanced Research in Science, Communication and Technology ◽

10.48175/ijarsct-2333 ◽

2021 ◽

pp. 224-230

Author(s):

Dr. S. Ponlatha ◽

Mathisalini B ◽

Deepthisri K. A ◽

Kalaiyarasi. M ◽

Kowshika. V

Keyword(s):

Machine Learning ◽

Deep Learning ◽

Machine Learning Techniques ◽

Music Score ◽

Genre Classification ◽

Learning Techniques ◽

Music Genre ◽

The Right ◽

Music Streaming ◽

Music Genre Classification

Music genre is a conventional category that predicts the genre of music belonging to tradition or set of conventions. A music platform, with total assets of $26 billion, is ruling the music streaming stage today. At present, it has a huge number of tunes and it is information base and claims to have the right music score for everybody. Like, Spotify, Amazon music, Wynk has put a great deal in examination to further develop the manner in which clients find and pay attention to music. AI is at the centre of their examination. From NLP to Collaborative sifting to Deep Learning, All music platforms utilizes them all. Tunes are examined dependent on their advanced marks for certain elements, including rhythm, acoustics, energy, danceability, and so forth, to answer that incomprehensible old first-date inquiry. Organizations these days use music arrangement, either to have the option to put suggestions to their clients (like Spotify, Soundcloud) or just as an item (for instance, Shazam). Deciding music sorts is the initial phase toward that path. AI procedures have ended up being very fruitful in removing patterns and examples from a huge information pool. Similar standards are applied in Music Analysis moreover. Machine learning techniques are achieved in some recent years and rarely in deep learning. Most of the current music genre classification uses Machine learning techniques. In this, we present a music dataset which includes many genres like Rock, Pop, folk, Classical and many genres. A Deep learning approach is used in order to train and classify the system using KNN.

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Music Genre Classification using Optimized Sequential Neural Network

International Journal of Advanced Trends in Computer Science and Engineering ◽

10.30534/ijatcse/2021/641032021 ◽

2021 ◽

Vol 10 (3) ◽

pp. 1949-1958

Keyword(s):

Machine Learning ◽

Deep Learning ◽

Learning Algorithms ◽

Machine Learning Algorithms ◽

Learning Approaches ◽

Human Beings ◽

Advantages And Disadvantages ◽

Genre Classification ◽

Music Genre ◽

Music Genre Classification

Music makes up a huge portion of the contents stored and used over the internet, with several sites and applications developed solely to provide music-related services to their users/ customers.Some of the most challenging tasks in this scenario would include music classification based on languages and genres, playlist suggestions based on music history, song suggestions based on playlist contents, top genres / songs based on listeners' rating, likes, number of streams, song loops, popularity of artists based on number of songs released per year, hit songs per year, etc. One of the most important stages to solve the above-mentioned challenges would be music genre classification. It would be impractical to analyze each and every song in a given database to identify and classify music genres, even though human beings are better at performing such tasks. Hence, useful Machine Learning algorithms and Deep Learning approaches may be used for accomplishing such tasks with ease. A thorough analysis to understand the different uses of Machine Learning and Deep Learning algorithms and relevance of such algorithms with respect to situations would be made to highlight and contrast the advantages and disadvantages of each approach. The outcomes of the optimized models would be visualized and comparedto the expected outcomes for better perception.

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