TY - JOUR A1 - Bayerl, Sebastian P. A1 - Gerczuk, Maurice A1 - Batliner, Anton A1 - Bergler, Christian A1 - Amiriparian, Shahin A1 - Schuller, Björn A1 - Nöth, Elmar A1 - Riedhammer, Korbinian T1 - Classification of Stuttering – The ComParE challenge and beyond JF - Computer Speech & Language N2 - The ACM Multimedia 2022 Computational Paralinguistics Challenge (ComParE) featured a sub-challenge on the classification of stuttering in order to bring attention to this important topic and engage a wider research community. Stuttering is a complex speech disorder characterized by blocks, prolongations of sounds and syllables, and repetitions of sounds and words. Accurately classifying the symptoms of stuttering has implications for the development of self-help tools and specialized automatic speech recognition systems (ASR) that can handle atypical speech patterns. This paper provides a review of the challenge contributions and improves upon them with new state-of-the-art classification results for the KSF-C dataset, and explores cross-language training to demonstrate the potential of datasets in multiple languages. To facilitate further research and reproducibility, the full KSF-C dataset, including test-set labels, is also released. KW - Dysfluency Stuttering ComParE challenge Paralinguistics Pathological speech Y1 - 2023 U6 - https://doi.org/10.1016/j.csl.2023.101519 VL - 81 ER - TY - JOUR A1 - Bayerl, Sebastian P. A1 - Wagner, Dominik A1 - Baumann, Ilja A1 - Bocklet, Tobias A1 - Riedhammer, Korbinian T1 - Detecting Vocal Fatigue with Neural Embeddings JF - Journal of Voice N2 - Vocal fatigue refers to the feeling of tiredness and weakness of voice due to extended utilization. This paper investigates the effectiveness of neural embeddings for the detection of vocal fatigue. We compare x-vectors, ECAPA-TDNN, and wav2vec 2.0 embeddings on a corpus of academic spoken English. Low-dimensional mappings of the data reveal that neural embeddings capture information about the change in vocal characteristics of a speaker during prolonged voice usage. We show that vocal fatigue can be reliably predicted using all three types of neural embeddings after 40 minutes of continuous speaking when temporal smoothing and normalization are applied to the extracted embeddings. We employ support vector machines for classification and achieve accuracy scores of 81% using x-vectors, 85% using ECAPA-TDNN embeddings, and 82% using wav2vec 2.0 embeddings as input features. We obtain an accuracy score of 76%, when the trained system is applied to a different speaker and recording environment without any adaptation. KW - Vocal fatigue KW - Neural embeddings KW - Visualization KW - Detection Y1 - 2023 U6 - https://doi.org/10.1016/j.jvoice.2023.01.012 SN - 0892-1997 PB - Elsevier BV ER -