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The Deep Learning Revolution in MIR: The Pros and Cons, the Needs and the Challenges Read chapter Read first chapter

2021 | OriginalPaper | Chapter

Feasibility Study of Deep Frequency Modulation Synthesis

Authors : Keiji Hirata, Masatoshi Hamanaka, Satoshi Tojo

Published in: Perception, Representations, Image, Sound, Music

Publisher: Springer International Publishing

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Abstract

Deep Frequency Modulation (FM) synthesis is the method of generating approximate or new waveforms by the network inspired by the conventional FM synthesis. The features of the method include that the activation functions of the network are all vibrating ones with distinct parameters and every activation function (oscillator unit) shares an identical time t. The network learns a training waveform given in the temporal interval designated by time t and generates an approximating waveform in the interval. As the first step of the feasibility study, we examine the basic performances and potential of the deep FM synthesis in small-sized experiments. We have confirmed that the optimization techniques developed for the conventional neural networks is applicable to the deep FM synthesis in small-sized experiments.

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previous chapter MUSICNTWRK: Data Tools for Music Theory, Analysis and Composition
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Literature
1.
Chowning, J.M.: The synthesis of complex audio spectra by means of frequency modulation. J. Audio Eng. Soc. 7(21), 526–534 (1973)
2.
Gashler, M.S., Ashmore, S.C.: Training deep fourier neural networks to fit time- series data (2014). arXiv preprint arXiv:​1405.​2262v1 (2014)
3.
Godfrey, L.B.: Parameterizing and aggregating activation functions in deep neural networks. Ph.D. thesis, University of Arkansas, May 2018
4.
Goodfellow, I., Bengio, Y., Courville, A.: Deep Learning. The MIT Press, Cambridge (2016)MATH
5.
Mingo, L., Aslanyan, L., Castellanos, J., Daz, M., Riazanov, V.: Fourier neural networks: an approach with sinusoidal activation functions. Int. J. Inf. Theories Appl. 11, 52–55 (2004)
6.
Roads, C.: The Computer Music Tutorial. The MIT Press, Cambridge (1996)
7.
Metadata
Title
Feasibility Study of Deep Frequency Modulation Synthesis
Authors
Keiji Hirata
Masatoshi Hamanaka
Satoshi Tojo
Copyright Year
2021
Book
Perception, Representations, Image, Sound, Music

Print ISBN: 978-3-030-70209-0

Electronic ISBN: 978-3-030-70210-6

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-3-030-70210-6_15