Paper Info
Title
The Geneva Minimalistic Acoustic Parameter Set (GeMAPS) for Voice Research and Affective Computing
Abstract
Work on voice sciences over recent decades has led to a proliferation of acoustic parameters that are used quite selectively and are not always extracted in a similar fashion. With many independent teams working in different research areas, shared standards become an essential safeguard to ensure compliance with state-of-the-art methods allowing appropriate comparison of results across studies and potential integration and combination of extraction and recognition systems. In this paper we propose a basic standard acoustic parameter set for various areas of automatic voice analysis, such as paralinguistic or clinical speech analysis. In contrast to a large brute-force parameter set, we present a minimalistic set of voice parameters here. These were selected based on a) their potential to index affective physiological changes in voice production, b) their proven value in former studies as well as their automatic extractability, and c) their theoretical significance. The set is intended to provide a common baseline for evaluation of future research and eliminate differences caused by varying parameter sets or even different implementations of the same parameters. Our implementation is publicly available with the openSMILE toolkit. Comparative evaluations of the proposed feature set and large baseline feature sets of INTERSPEECH challenges show a high performance of the proposed set in relation to its size.
Year
DOI
Venue
2016
10.1109/TAFFC.2015.2457417
IEEE Trans. Affective Computing
Keywords
Field
DocType
Acoustic Features,Affective Computing,Emotion Recognition,Geneva Minimalistic Parameter Set,Speech Analysis,Standard
Mel-frequency cepstrum,Voice analysis,Paralanguage,Computer science,Emotion recognition,Implementation,Feature set,Safeguard,Artificial intelligence,Affective computing,Machine learning
Journal
Volume
Issue
ISSN
PP
99
1949-3045
Citations 
PageRank 
References 
134
3.80
28
Authors
4
Search Limit
100134
Name
Order
Citations
PageRank
Florian Eyben12854141.87
Klaus R. Scherer2100286.99
Björn Schuller36749463.50
J Sundberg417914.74