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✅Registration
Jan. 15
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📢Opening remarks
Jan. 15
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Trustworthy virtual brains
Prof. Dr. Petra RitterJan. 15
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Multisensory Processing: sometimes we integrate and sometimes we need to segregate.
John J. Foxe, PhDJan. 15
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☕Coffee break
Jan. 15
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Cerebellar EEG oscillation in human vocalization
Prof. Dr. Guy CheronJan. 15
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Dementia Research in the AI Era: Lessons and Future Directions from the AI-Mind Project
Ira H. Haraldsen (MD, PhD, Principal Investigator) & Christoffer Hatlestad-Hall (PhD, Postdoctoral researcher)Jan. 15
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Investigating Variability in EEG-Based Brain-Computer Interfaces: Insights from the NEARBY Project
Dr. Maurice RekrutJan. 15
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🥗Lunch break
Jan. 15
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REM Sleep and Epic Dreaming
Ivana Rosenzweig MD, PhD, FRCPsychJan. 15
Waldo Nogueira received his degree in Telecommunications Engineering from the Technical University of Catalonia (UPC) in 2003, completing his diploma thesis at Leibniz University of Hannover (LUH) as an Erasmus student. He earned his PhD at LUH’s Laboratory of Information Technology, focusing on signal processing for cochlear implants. His research explores how electrical and acoustic stimulation interact in the auditory system, using methods from electrophysiology, psychoacoustics, computational modeling, and signal processing.
He has worked across clinical, academic, and industrial settings. As a tenured W2 professor, he created the Auditory Prosthetic Group within the Hearing4all cluster and Hannover Medical School (MHH), where he investigates new hearing technologies. His teaching includes clinical audiology, psychoacoustics, and neural signal processing. In 2022, he received an ERC Consolidator Grant for the READIHEAR project, and in 2024, an ATRAE grant from Spain’s Agencia Estatal de Investigación for the NEUROHEAR project at the Unviersitat Autònoma de Barcelona, Spain.
The optimal individual parameter setting of a cochlear implant (CI) is crucial for the patient's hearing ability, speech understanding, and thus the success of the therapy. The configuration of CI parameters is commonly referred to as the fitting procedure. Current clinical workflows rely on manual CI fitting, which is labor-intensive, costly, and highly dependent on subjective judgments, resulting in inconsistent outcomes. Moreover, this approach is unsuitable for patient groups with limited cooperation, such as infants and young children. Due to resource constraints, regular readjustments of CI fittings are also severely limited.
The aim of the ICoStim project is to create a novel method for objective and individualized fitting of the stimulation parameters of CIs. This innovative method combines current technological and methodological research results in mobile EEG hardware, auditory stimulation and objective determination of stimulation parameters based on EEG, as well as dry EEG sensor technology and sensor applicators.
In this talk, partners from Technische Universität Ilmenau (Prof. Patrique Fiedler) and Hannover Medical School (Prof. Waldo Nogueira) will provide an overview of the state of the art in dry electrode technology and auditory stimulation for CI objective fitting. Based on preliminary results, they will outline the project aims and key research areas as well as their vision of the ICoStim fully integrated closed-loop fitting device for CIs.
MINDS IN MOTION
Mental Health Journeys: Stories, Art, and Science
Berlin, January 15th 2026