Neural third-octave graphic equalizer

Jussi Rämö; Vesa Välimäki

Neural third-octave graphic equalizer

Audio Signal Processing

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

11 Citations (Scopus)

117 Downloads (Pure)

Abstract

This paper proposes to speed up the design of a third-order graphic equalizer by training a neural network to imitate its gain optimization. Instead of using the neural network to learn to design the graphic equalizer by optimizing its magnitude response, we present the network only with example command gains and the corresponding optimized gains, which are obtained with a previously proposed least-squares-based method. We presented this idea recently for the octave graphic equalizer with 10 band ﬁlters and extend it here to the third-octave case. Instead of a network with a single hidden layer, which we previously used, this task appears to require two hidden layers. This paper shows that good results can be reached with a neural network having 62 and 31 units in the ﬁrst and the second hidden layer, respectively. After the training, the resulting network can quickly and accurately design a third-order graphic equalizer with a maximum error of 1.2 dB. The computing of the ﬁlter gains is over 350 times faster with the neural network than with the original optimization method. The
method is easy to apply, and may thus lead to widespread use of accurate digital graphic equalizers.

Original language	English
Title of host publication	Proceedings of the International Conference on Digital Audio Effects
Publisher	University of Birmingham
Number of pages	6
Publication status	Published - 2 Sept 2019
MoE publication type	A4 Conference publication
Event	International Conference on Digital Audio Effects - Birmingham, United Kingdom Duration: 2 Sept 2019 → 6 Sept 2019 Conference number: 22

Publication series

Name	Proceedings of the International Conference on Digital Audio Effects
ISSN (Print)	2414-6382
ISSN (Electronic)	2413-6689

Conference

Conference	International Conference on Digital Audio Effects
Abbreviated title	DAFX
Country/Territory	United Kingdom
City	Birmingham
Period	02/09/2019 → 06/09/2019

Access to Document

ELEC_Ramo_Neural_third-octave_graphic_DAFx2019Final published version, 2.71 MBLicence: CC BY

-: NordicSMC Aalto
Välimäki, V. (Principal investigator)
01/01/2018 → 31/12/2023
Project: Other external funding: Other foreign funding

Aalto Acoustics Lab
Pulkki, V. (Manager)
School of Electrical Engineering
Facility/equipment: Facility

Cite this

@inproceedings{76a9aac585f3418c8c72ff1b07730793,

title = "Neural third-octave graphic equalizer",

abstract = "This paper proposes to speed up the design of a third-order graphic equalizer by training a neural network to imitate its gain optimization. Instead of using the neural network to learn to design the graphic equalizer by optimizing its magnitude response, we present the network only with example command gains and the corresponding optimized gains, which are obtained with a previously proposed least-squares-based method. We presented this idea recently for the octave graphic equalizer with 10 band ﬁlters and extend it here to the third-octave case. Instead of a network with a single hidden layer, which we previously used, this task appears to require two hidden layers. This paper shows that good results can be reached with a neural network having 62 and 31 units in the ﬁrst and the second hidden layer, respectively. After the training, the resulting network can quickly and accurately design a third-order graphic equalizer with a maximum error of 1.2 dB. The computing of the ﬁlter gains is over 350 times faster with the neural network than with the original optimization method. Themethod is easy to apply, and may thus lead to widespread use of accurate digital graphic equalizers.",

author = "Jussi R{\"a}m{\"o} and Vesa V{\"a}lim{\"a}ki",

year = "2019",

month = sep,

day = "2",

language = "English",

series = "Proceedings of the International Conference on Digital Audio Effects",

publisher = "University of Birmingham",

booktitle = "Proceedings of the International Conference on Digital Audio Effects",

address = "United Kingdom",

note = "International Conference on Digital Audio Effects, DAFX ; Conference date: 02-09-2019 Through 06-09-2019",

}

Neural third-octave graphic equalizer. / Rämö, Jussi; Välimäki, Vesa.
Proceedings of the International Conference on Digital Audio Effects. University of Birmingham, 2019. (Proceedings of the International Conference on Digital Audio Effects).

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

TY - GEN

T1 - Neural third-octave graphic equalizer

AU - Rämö, Jussi

AU - Välimäki, Vesa

N1 - Conference code: 22

PY - 2019/9/2

Y1 - 2019/9/2

N2 - This paper proposes to speed up the design of a third-order graphic equalizer by training a neural network to imitate its gain optimization. Instead of using the neural network to learn to design the graphic equalizer by optimizing its magnitude response, we present the network only with example command gains and the corresponding optimized gains, which are obtained with a previously proposed least-squares-based method. We presented this idea recently for the octave graphic equalizer with 10 band ﬁlters and extend it here to the third-octave case. Instead of a network with a single hidden layer, which we previously used, this task appears to require two hidden layers. This paper shows that good results can be reached with a neural network having 62 and 31 units in the ﬁrst and the second hidden layer, respectively. After the training, the resulting network can quickly and accurately design a third-order graphic equalizer with a maximum error of 1.2 dB. The computing of the ﬁlter gains is over 350 times faster with the neural network than with the original optimization method. Themethod is easy to apply, and may thus lead to widespread use of accurate digital graphic equalizers.

AB - This paper proposes to speed up the design of a third-order graphic equalizer by training a neural network to imitate its gain optimization. Instead of using the neural network to learn to design the graphic equalizer by optimizing its magnitude response, we present the network only with example command gains and the corresponding optimized gains, which are obtained with a previously proposed least-squares-based method. We presented this idea recently for the octave graphic equalizer with 10 band ﬁlters and extend it here to the third-octave case. Instead of a network with a single hidden layer, which we previously used, this task appears to require two hidden layers. This paper shows that good results can be reached with a neural network having 62 and 31 units in the ﬁrst and the second hidden layer, respectively. After the training, the resulting network can quickly and accurately design a third-order graphic equalizer with a maximum error of 1.2 dB. The computing of the ﬁlter gains is over 350 times faster with the neural network than with the original optimization method. Themethod is easy to apply, and may thus lead to widespread use of accurate digital graphic equalizers.

M3 - Conference article in proceedings

T3 - Proceedings of the International Conference on Digital Audio Effects

BT - Proceedings of the International Conference on Digital Audio Effects

PB - University of Birmingham

T2 - International Conference on Digital Audio Effects

Y2 - 2 September 2019 through 6 September 2019

ER -

Neural third-octave graphic equalizer

Abstract

Publication series

Conference

Access to Document

Fingerprint

Projects

-: NordicSMC Aalto

Equipment

Aalto Acoustics Lab

Cite this