Researcher
Sarah Verhulst
- Keywords:sound perception, auditory brain potentials, Computational Auditory Modelling, auditory signal processing, Auditory neuroscience, Hearing Technology, hearing impairment
- Disciplines:Speech, language and hearing sciences not elsewhere classified, Computational biomodelling and machine learning, Otorhinolaryngology not elsewhere classified, Neurophysiology, Biomedical modelling, Audio and speech computing, Modelling and simulation, Biomedical signal processing, Human health engineering, Electrophysiology, Behavioural neuroscience
Affiliations
- Department of Information technology (Department)
Member
From20 Sep 2016 → Today
Projects
1 - 10 of 14
- Mouse, Man, and Machine: Combining Model Systems to Develop a Biomarker for Cochlear Deafferentation in HumansFrom1 Jul 2023 → TodayFunding: Other international institutions, not mentioned elsewhere
- Closed-loop music biofeedback for pervasive effect on humans, grounded in knowledge on embodiment and predictionFrom1 Oct 2022 → TodayFunding: BOF - doctoral mandates
- Precision Hearing Diagnostics and Augmented-hearing TechnologiesFrom1 Aug 2022 → TodayFunding: Horizon Europe - European Innovation Council (EIC)
- The Functional Role of Cochlear Synaptopathy for Speech Coding in the BrainFrom1 Apr 2021 → 31 Mar 2024Funding: FWO research project (including WEAVE projects)
- Machine Hearing 2.0: Biophysically-inspired auditory signal processing for machine-hearing applicationsFrom1 Jan 2021 → TodayFunding: FWO research project (including WEAVE projects)
- Modeling how sensorineural hearing loss affects auditory processing and physiological markers of hearingFrom1 Jan 2021 → TodayFunding: FWO research project (including WEAVE projects)
- Automatic and individualized bio-inspired hearing technologies.From1 Nov 2020 → 15 Jan 2023Funding: FWO Strategic Basic Research Grant
- Unravelling the causes of individual speech-in-noise deficits: disentangling outer hair-cell and inner hair-cell / auditory nerve sourcesFrom1 Oct 2020 → 30 Apr 2022Funding: Other EU initiatives out of framework
- A diagnostic test for cochlear synaptopathy in humansFrom1 Sep 2020 → 28 Feb 2022Funding: H2020 - Frontier Research (ERC)
- Brigham and Women's Hospital and Harvard Medical School Strategic Institutional PartnershipFrom1 Jan 2020 → TodayFunding: BOF - mobility
Publications
41 - 50 of 77
- SERGAN : speech enhancement using relativistic generative adversarial networks with gradient penalty(2019)
Authors: Deepak Baby, Sarah Verhulst
Pages: 106 - 110 - Intelligibility of filtered speech and its relation to electrophysiological markers of supra-threshold hearing deficits(2019)
Authors: Markus Garrett, Viacheslav Vasilkov, Sarah Verhulst, Martin Ochmann, Michael Vorländer, Janina Fels
Pages: 5647 - 5650 - Hearing-impaired sound perception : what can we learn from a biophysical model of the human auditory periphery?(2019)
Authors: Alejandro Osses Vecchi, Frauke Ernst, Sarah Verhulst, Martin Ochmann, Michael Vorländer, Janina Fels
Pages: 678 - 685 - Acquisition of subcortical auditory potentials with around-the-Ear cEEGrid technology in normal and hearing impaired listeners(2019)
Authors: Markus Garrett, Stefan Debener, Sarah Verhulst
- The search for noise-induced cochlear synaptopathy in humans : mission impossible?(2019)
Authors: Naomi Bramhall, Elizabeth Francis Beach, Bastian Epp, Colleen G. Le Prell, Enrique A. Lopez-Poveda, Christopher J. Plack, Roland Schaette, Sarah Verhulst, Barbara Canlon
Pages: 88 - 103 - Hearing diagnostics : hearing health monitoring after noise exposure(2019)
Authors: Tine Vande Maele, Hannah Keppler, Sarah Verhulst
Number of pages: 1 - Tonotopic sensitivity to supra-threshold hearing deficits of the envelope following response evoked by broadband stimuli(2019)
Authors: Sarineh Keshishzadeh, Viacheslav Vasilkov, Sarah Verhulst, Martin Ochmann, Michael Vorländer, Janina Fels
Pages: 6513 - 6518 - Real-time audio processing on a raspberry Pi using deep neural networks(2019)
Authors: Fotios Drakopoulos, Deepak Baby, Sarah Verhulst, Martin Ochmann, Michael Vorländer, Janina Fels
Pages: 2827 - 2834 - The effect of the inner-hair-cell mediated transduction on the shape of neural tuning curves(2018)Volume: 1965
Authors: Alessandro Altoè, Ville Pulkki, Sarah Verhulst
Number of pages: 1 - Computational modeling of the human auditory periphery : auditory-nerve responses, evoked potentials and hearing loss(2018)
Authors: Sarah Verhulst, Alessandro Altoè, Viacheslav Vasilkov
Pages: 55 - 75
Patents
1 - 4 of 4
- A CLOSED-LOOP METHOD TO INDIVIDUALIZE NEURAL-NETWORK BASED AUDIO SIGNAL PROCESSING (Inventor)
- METHOD AND SYSTEM FOR DETERMINING THE INTEGRITY OF AUDITORY NERVE FIBERS AND SYNAPSES (Inventor)
- METHOD AND SYSTEM FOR DETERMINING THE INTEGRITY OF AUDITORY NERVE FIBERS AND SYNAPSES (Inventor)
- A neural network model for cochlear mechanics and processing (Inventor)