An Analysis of Classification Approaches for Hit Song Prediction using Engineered Metadata Features with Lyrics and Audio Features

Diversity, divergence, dialogue : 16th international conference, iConference 2021, Beijing, China, March 17-31, 2021 : proceedings. iConference (Conference) (16th : 2021 : Online) Pub Date : 2023-01-31 DOI:10.48550/arXiv.2301.13507

Mengyisong Zhao, Morgan Harvey, D. Cameron, F. Hopfgartner, V. Gillet

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引用次数: 1

Abstract

Hit song prediction, one of the emerging fields in music information retrieval (MIR), remains a considerable challenge. Being able to understand what makes a given song a hit is clearly beneficial to the whole music industry. Previous approaches to hit song prediction have focused on using audio features of a record. This study aims to improve the prediction result of the top 10 hits among Billboard Hot 100 songs using more alternative metadata, including song audio features provided by Spotify, song lyrics, and novel metadata-based features (title topic, popularity continuity and genre class). Five machine learning approaches are applied, including: k-nearest neighbours, Naive Bayes, Random Forest, Logistic Regression and Multilayer Perceptron. Our results show that Random Forest (RF) and Logistic Regression (LR) with all features (including novel features, song audio features and lyrics features) outperforms other models, achieving 89.1% and 87.2% accuracy, and 0.91 and 0.93 AUC, respectively. Our findings also demonstrate the utility of our novel music metadata features, which contributed most to the models' discriminative performance.

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基于歌词和音频特征的工程元数据特征的热门歌曲预测分类方法分析

热门歌曲预测是音乐信息检索(MIR)中的新兴领域之一，但仍然是一个相当大的挑战。能够理解是什么让一首歌曲成为热门歌曲，显然对整个音乐产业都是有益的。以前预测热门歌曲的方法主要是利用唱片的音频特征。本研究旨在使用更多可替代的元数据，包括Spotify提供的歌曲音频功能、歌词和新颖的基于元数据的功能(标题主题、流行度连续性和类型类别)，改善Billboard Hot 100歌曲前10名的预测结果。应用了五种机器学习方法，包括:k近邻、朴素贝叶斯、随机森林、逻辑回归和多层感知机。我们的研究结果表明，随机森林(RF)和逻辑回归(LR)的所有特征(包括小说特征、歌曲音频特征和歌词特征)优于其他模型，准确率分别达到89.1%和87.2%，AUC分别为0.91和0.93。我们的发现还证明了我们的新音乐元数据特征的实用性，这对模型的判别性能贡献最大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Diversity, divergence, dialogue : 16th international conference, iConference 2021, Beijing, China, March 17-31, 2021 : proceedings. iConference (Conference) (16th : 2021 : Online)

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