Hauptinhalt
Topinformationen
Mitarbeiterverzeichnis
Study Project: Human-A and EEG (Part II)
Understanding EEG signatures in spatial navigation
Prof. Dr. med. Peter König
Tracy Sanchez Pacheco
Debora Nolte, M. Sc.
Veranstaltungstyp: Studienprojekt
TeilnehmerInnen:
Beschreibung:
Spatial navigation is a multidimensional cognitive process that combines wayfinding and purposeful movement (König et al., 2019). However, comprehending the intricacies of this phenomenon in humans still poses challenges. This project aims to understand how having human agents inside a virtual reality (VR) city can alter information retrieval after repeated free explorations in the city inspired by the methods used in Rounds and colleagues (2020).
Your role would include activities such as:
- Adjust and alter an already existing VR (Unity) project.
- Recruit and measure participants.
- Classify eye movements and analyze behavioral data.
- Analyze EEG data, specifically event-related synchronization/desynchronization analysis.
König, S. U., Goeke, C., Meilinger, T., & König, P. (2019). Are allocentric spatial reference frames compatible with theories of Enactivism? Psychological Research, 83(3), 498–513. https://doi.org/10.1007/s00426-017-0899-x
Rounds, J. D., Cruz-Garza, J. G., & Kalantari, S. (2020). Using posterior eeg theta band to assess the effects of architectural designs on landmark recognition in an urban setting. Frontiers in human neuroscience, 14, 584385.
Erstes Treffen:
Dienstag, 02.04.2024 14:00 - 16:00, Ort: 93/E12
Ort: 93/E12
Semester: SoSe 2024
Zeiten:Di. 14:00 - 16:00 (wöchentlich)
Leistungsnachweis:
Veranstaltungsnummer:
8.3106
ECTS-Kreditpunkte:
12
Bereichseinordnung:
Veranstaltungen > Cognitive Science > Master-Programm
Understanding EEG signatures in spatial navigation
Prof. Dr. med. Peter König
Tracy Sanchez Pacheco
Debora Nolte, M. Sc.
Veranstaltungstyp: Studienprojekt
TeilnehmerInnen:
Beschreibung:
Spatial navigation is a multidimensional cognitive process that combines wayfinding and purposeful movement (König et al., 2019). However, comprehending the intricacies of this phenomenon in humans still poses challenges. This project aims to understand how having human agents inside a virtual reality (VR) city can alter information retrieval after repeated free explorations in the city inspired by the methods used in Rounds and colleagues (2020).
Your role would include activities such as:
- Adjust and alter an already existing VR (Unity) project.
- Recruit and measure participants.
- Classify eye movements and analyze behavioral data.
- Analyze EEG data, specifically event-related synchronization/desynchronization analysis.
König, S. U., Goeke, C., Meilinger, T., & König, P. (2019). Are allocentric spatial reference frames compatible with theories of Enactivism? Psychological Research, 83(3), 498–513. https://doi.org/10.1007/s00426-017-0899-x
Rounds, J. D., Cruz-Garza, J. G., & Kalantari, S. (2020). Using posterior eeg theta band to assess the effects of architectural designs on landmark recognition in an urban setting. Frontiers in human neuroscience, 14, 584385.
Erstes Treffen:
Dienstag, 02.04.2024 14:00 - 16:00, Ort: 93/E12
Ort: 93/E12
Semester: SoSe 2024
Zeiten:Di. 14:00 - 16:00 (wöchentlich)
Leistungsnachweis:
Veranstaltungsnummer:
8.3106
ECTS-Kreditpunkte:
12
Bereichseinordnung:
Veranstaltungen > Cognitive Science > Master-Programm