6533b870fe1ef96bd12cf10a
RESEARCH PRODUCT
Glottal Source Features for Automatic Speech-Based Depression Assessment
Paulos CharonyktakisMartin CookeOlympia SimantirakiAnastasia PampouchidouManolis Tsiknakissubject
machine learningComputer scienceSpeech recognitionglottal source0202 electrical engineering electronic engineering information engineeringAutomatic speechPhase Distortion Deviation020206 networking & telecommunications020201 artificial intelligence & image processing02 engineering and technologybi-nary classificationDepression (differential diagnoses)description
Depression is one of the most prominent mental disorders, with an increasing rate that makes it the fourth cause of disability worldwide. The field of automated depression assessment has emerged to aid clinicians in the form of a decision support system. Such a system could assist as a pre-screening tool, or even for monitoring high risk populations. Related work most commonly involves multimodal approaches, typically combining audio and visual signals to identify depression presence and/or severity. The current study explores categorical assessment of depression using audio features alone. Specifically, since depression-related vocal characteristics impact the glottal source signal, we examine Phase Distortion Deviation which has previously been applied to the recognition of voice qualities such as hoarseness, breathiness and creakiness, some of which are thought to be features of depressed speech. The proposed method uses as features DCT-coefficients of the Phase Distortion Deviation for each frequency band. An automated machine learning tool, Just Add Data, is used to classify speech samples. The method is evaluated on a benchmark dataset (AVEC2014), in two conditions: read-speech and spontaneous-speech. Our findings indicate that Phase Distortion Deviation is a promising audio-only feature for automated detection and assessment of depressed speech.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-08-24 | Interspeech 2017 |