TY - INPR A1 - Brych, Mareike A1 - Händel, Barbara T1 - Disentangling top-down and bottom-up influences on blinks in the visual and auditory domain T2 - International Journal of Psychophysiology N2 - Sensory input as well as cognitive factors can drive the modulation of blinking. Our aim was to dissociate sensory driven bottom-up from cognitive top-down influences on blinking behavior and compare these influences between the auditory and the visual domain. Using an oddball paradigm, we found a significant pre-stimulus decrease in blink probability for visual input compared to auditory input. Sensory input further led to an early post-stimulus blink increase in both modalities if a task demanded attention to the input. Only visual input caused a pronounced early increase without a task. In case of a target or the omission of a stimulus (as compared to standard input), an additional late increase in blink rate was found in the auditory and visual domain. This suggests that blink modulation must be based on the interpretation of the input, but does not need any sensory input at all to occur. Our results show a complex modulation of blinking based on top-down factors such as prediction and attention in addition to sensory-based influences. The magnitude of the modulation is mainly influenced by general attentional demands, while the latency of this modulation allows to dissociate general from specific top-down influences that are independent of the sensory domain. KW - eye blinks KW - attention KW - auditory KW - visual KW - visual domain KW - auditory domain KW - oddball Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-246590 SN - 1872-7697 SN - 0167-8760 N1 - accepted version ER - TY - JOUR A1 - Erlbeck, Helena A1 - Mochty, Ursula A1 - Kübler, Andrea A1 - Real, Ruben G. L. T1 - Circadian course of the P300 ERP in patients with amyotrophic lateral sclerosis - implications for brain-computer interfaces (BCI) JF - BMC Neurology N2 - Background: Accidents or neurodegenerative diseases like amyotrophic lateral sclerosis (ALS) can lead to progressing, extensive, and complete paralysis leaving patients aware but unable to communicate (locked-in state). Brain-computer interfaces (BCI) based on electroencephalography represent an important approach to establish communication with these patients. The most common BCI for communication rely on the P300, a positive deflection arising in response to rare events. To foster broader application of BCIs for restoring lost function, also for end-users with impaired vision, we explored whether there were specific time windows during the day in which a P300 driven BCI should be preferably applied. Methods: The present study investigated the influence of time of the day and modality (visual vs. auditory) on P300 amplitude and latency. A sample of 14 patients (end-users) with ALS and 14 healthy age matched volunteers participated in the study and P300 event-related potentials (ERP) were recorded at four different times (10, 12 am, 2, & 4 pm) during the day. Results: Results indicated no differences in P300 amplitudes or latencies between groups (ALS patients v. healthy participants) or time of measurement. In the auditory condition, latencies were shorter and amplitudes smaller as compared to the visual condition. Conclusion: Our findings suggest applicability of EEG/BCI sessions in patients with ALS throughout normal waking hours. Future studies using actual BCI systems are needed to generalize these findings with regard to BCI effectiveness/efficiency and other times of day. KW - brain computer interface KW - amyotrophic lateral sclerosis KW - ALS KW - P300 KW - auditory KW - visual KW - BCI Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-157423 VL - 17 IS - 3 ER - TY - THES A1 - Herweg, Andreas T1 - Beyond the state of the art, towards intuitive and reliable non-visual Brain-Computer-Interfacing T1 - Entwicklung intuitiver und zuverlässiger nicht-visueller Gehirn-Computer-Schnittstellen N2 - For the present work three main goals were formulated: goal 1 To design a tactile BCI used for mobility which is intuitive (G1.1), reliable and fast while being usable by participants aged 50 years and above. goal 2 To design an auditory BCI used for communication which is intuitive and reliable. goal 3 To examine the effects of training on tactile and auditory BCI performance. Three studies were performed to achieve these goals. In the first study nine participants aged above 50 years performed a five-session training after which eight participants were able to navigate a virtual wheelchair with mean accuracy above 95% and an ITR above 20 bits / min. In the second study 15 participants, four of them endusers with motor-impairment, were able to communicate meaningful with high accuracies using an auditory BCI. In the third study nine healthy and nine visually impaired participants (regarded as sensory experts for non-visual perception) performed tactile, auditory and visual (for healthy participants only) copy tasks. Participants with trained perception significantly outperformed control participants for tactile but not for auditory performance. Tactile performance of sensory experts was on equal levels as the visual performance of control participants. We were able to demonstrate viability of intuitive gazeindependent tactile and auditory BCI. Our tactile BCI performed on levels similar to those of visual BCI, outperforming current tactile BCI protocols. Furthermore, we were able to demonstrate significant beneficial effect of training on tactile BCI performance. Our results demonstrate previously untapped potential for tactile BCI and avenues for future research in the field of gaze-independent BCI. N2 - Im Rahmen der vorliegenden Arbeit wurden folgende drei Hauptziele formuliert: ziel 1 Entwicklung eines taktilen Mobilitäts-BCIs, das sowohl intuitiv, zuverlässig und schnell als auch von Personen älter als 50 Jahre verlässlich benutzt werden kann.. ziel 2 Entwicklung eines auditorischen Kommunikations- BCIs, das intuitiv und zuverlässig sein soll. ziel 3 Untersuchung des Effekts von sensorischem Training auf die Leistung bei Verwendung eines BCIs. Um die genannten Ziele zu erreichen, wurden drei Studien durchgeführt. In der ersten Studie absolvierten neun Teilnehmer älter als 50 Jahre ein BCI-Training, das fünf Sitzungen umfasste. Nach Abschluss des Trainings konnten acht Teilnehmer einen virtuellen Rollstuhl mit mittleren Genauigkeiten von über 95% und einer ITR über 20 bits / min steuern. In der zweiten Studie waren insgesamt 15 Teilnehmer, davon vier End-Nutzer mit motorischen Einschränkungen, in der Lage, bedeutungsvoll und mit hohen Genauigkeiten mittels unseres BCIs zu kommunizieren. An der dritten Studie nahmen neun sehende und neun blinde (sensorische Experten für nicht visuelle Wahrnehmung) Versuchspersonen teil und absolvierten taktile, auditorische und visuelle (nur für sehende Teilnehmer) Copy-Aufgaben. Verglichen mit den Sehenden waren die sensorische Experten signifikant besser in der taktilen, jedoch nicht in der auditiven Modalität. Leistungen von Blinden in der taktilen Modalität waren gleich gut wie die von Sehenden in der visuellen Modalität. Zusammenfassend konnte im Rahmen der Arbeit gezeigt werden, dass intuitive blickunabhängige taktile und auditorische BCI eine gültige Alternative zu bestehenden visuellen BCI darstellen. Mit dem vorgestellten taktilen BCI konnten Leistungen erbracht werden, die mit denen visueller BCIs vergleichbar sind. Zusätzlich wurde ein signifikant positiver Einfluss von Training auf die taktile Leistungsfähigkeit gezeigt. Zusammenfassend kann gesagt werden, dass die im Rahmen dieser Arbeit gewonnenen Erkenntnisse bisher ungenutzes Potenzial für taktile BCI aufzeigen und wertvolle Ansätze für zukünftige Forschung liefern. KW - Gehirn-Computer-Schnittstelle KW - tactile KW - non-visual KW - auditory KW - tactil KW - nicht-visuell KW - auditorisch Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-133447 ER - TY - JOUR A1 - Kleih, Sonja C. A1 - Herweg, Andreas A1 - Kaufmann, Tobias A1 - Staiger-Sälzer, Pit A1 - Gerstner, Natascha A1 - Kübler, Andrea T1 - The WIN-speller: a new intuitive auditory brain-computer interface spelling application JF - Frontiers in Neuroscience N2 - The objective of this study was to test the usability of a new auditory Brain-Computer Interface (BCI) application for communication. We introduce a word based, intuitive auditory spelling paradigm the WIN-speller. In the WIN-speller letters are grouped by words, such as the word KLANG representing the letters A, G, K, L, and N. Thereby, the decoding step between perceiving a code and translating it to the stimuli it represents becomes superfluous. We tested 11 healthy volunteers and four end-users with motor impairment in the copy spelling mode. Spelling was successful with an average accuracy of 84% in the healthy sample. Three of the end-users communicated with average accuracies of 80% or higher while one user was not able to communicate reliably. Even though further evaluation is required, the WIN-speller represents a potential alternative for BCI based communication in end-users. KW - Brain-Computer Interface (BCI) KW - communication KW - P300 KW - motor-impaired end-user KW - auditory Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125972 VL - 9 ER - TY - THES A1 - Leinfelder, Teresa T1 - Untersuchung von Trainingseffekten bei der Verwendung einer auditorischen P300-basierten EEG Gehirn-Computer Schnittstelle mittels fMRI Analyse T1 - Investigation of training effects of a P300-based EEG brain-computer interface using fMRI analysis N2 - In dieser Dissertation untersuchten wir die neuronalen Korrelate des Training-Effektes einer auditorischen P300 Gehirn-Computer Schnittstelle mittels fMRI Analyse in einem prä-post Design mit zehn gesunden Testpersonen. Wir wiesen in drei Trainings-sitzungen einen Trainingseffekt in der EEG-Analyse der P300 Welle nach und fanden entsprechende Kontraste in einer prä-post Analyse von fMRI Daten, wobei in allen fünf Sitzungen das gleiche Paradigma verwendet wurde. In der fMRI Analyse fanden wir fol-gende Ergebnisse: in einem Target-/ Nichttarget Kontrast zeigte sich verstärkte Aktivie-rung in Generatorregionen der P300 Welle (temporale und inferiore frontale Regionen) und interessanterweise auch in motorassoziierten Arealen, was höhere kognitiver Pro-zesse wie Aufmerksamkeitslenkung und Arbeitsspeicher widerspiegeln könnte. Der Kon-trast des Trainingseffektes zeigte nach dem Training einen stärkeren Rebound Effekt im Sinne einer verstärkten Aktivierung in Generatorregionen der P300 Welle, was eine ver-besserte Erkennung und Prozessierung von Target-Stimuli reflektieren könnte. Eine Ab-nahme von Aktivierung in frontalen Arealen in diesem Kontrast könnte durch effizientere Abläufe kognitiver Prozesse und des Arbeitsgedächtnis erklärt werden. N2 - In this dissertation we investigated the neuronal correlates of the training effect of an auditory P300-based brain-computer interface using fMRI analysis in a prae-post de-sign in a group of ten healthy probands. We showed a training effect during three training sessions with EEG analysis of the P300 wave and found corresponding contrasts in a prae-post analysis of fMRI data, while using the same paradigma in all sessions. In the fMRI analysis we found the following results: in a target / nontarget contrast we found enhancement of activation in generator regions of the P300 wave such as temporal and inferior frontal areas and interestingly also in motor associated areas which could reflect higher cognitive processes such as attention and working memory. In the contrast of the effects of training we found a stronger rebound effect as a correlate of stronger activation after training in generator regions of P300, possibly reflecting better discrimination and processing of stimuli. The decrease of activation in frontal areas in this contrast could be explained by increased efficiency of cognitive processing and working memory through training. KW - Gehirn-Computer-Schnittstelle KW - Neurofeedback KW - Ereigniskorreliertes Potenzial KW - Funktionelle Kernspintomografie KW - auditorisches Neurofeedback Training KW - P300 Welle KW - EEG KW - BCI KW - ALS KW - auditory KW - fMRI Analyse KW - prä-post Design Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-290683 ER - TY - JOUR A1 - Zhou, Sijie A1 - Allison, Brendan Z. A1 - Kübler, Andrea A1 - Cichocki, Andrzej A1 - Wang, Xingyu A1 - Jin, Jing T1 - Effects of Background Music on Objective and Subjective Performance Measures in an Auditory BCI JF - Frontiers in Computational Neuroscience N2 - Several studies have explored brain computer interface (BCI) systems based on auditory stimuli, which could help patients with visual impairments. Usability and user satisfaction are important considerations in any BCI. Although background music can influence emotion and performance in other task environments, and many users may wish to listen to music while using a BCI, auditory, and other BCIs are typically studied without background music. Some work has explored the possibility of using polyphonic music in auditory BCI systems. However, this approach requires users with good musical skills, and has not been explored in online experiments. Our hypothesis was that an auditory BCI with background music would be preferred by subjects over a similar BCI without background music, without any difference in BCI performance. We introduce a simple paradigm (which does not require musical skill) using percussion instrument sound stimuli and background music, and evaluated it in both offline and online experiments. The result showed that subjects preferred the auditory BCI with background music. Different performance measures did not reveal any significant performance effect when comparing background music vs. no background. Since the addition of background music does not impair BCI performance but is preferred by users, auditory (and perhaps other) BCIs should consider including it. Our study also indicates that auditory BCIs can be effective even if the auditory channel is simultaneously otherwise engaged. KW - brain computer interface KW - event-related potentials KW - auditory KW - music background KW - audio stimulus Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-165101 VL - 10 IS - 105 ER -