@article{, author = {Anheuer, Daniel; Karacan, Brid; Herzog, Lara; Weigel, Nora; Meyer-Nieberg, Silja; Gebhardt, Thomas; Freiherr, Jessica; Richter, Martin; Leopold, Armin; Eder, Monika; Hofmann, Marko; Renner, Karl-Heinz; Küsel, Cornelia}, title = {Framework for Microdosing Odors in Virtual Reality for Psychophysiological Stress Training}, editor = {}, booktitle = {}, series = {}, journal = {Sensors}, address = {}, publisher = {}, edition = {}, year = {2024}, isbn = {}, volume = {24}, number = {21}, pages = {7046}, url = {https://doi.org/10.3390/s24217046}, doi = {10.3390/s24217046}, keywords = {stress training ; olfaction ; odor actuator ; physiological response ; psychological response ; personalized odor presentation ; micropump ; scent dosing ; olfactory display ; multisensory VR}, abstract = {To better cope with stress in emergencies, emergency personnel undergo virtual reality (VR) stress training. Such training typically includes visual, auditory and sometimes tactile impressions, whereas olfactory stimuli are mostly neglected. This concept paper therefore examines whether odors might be beneficial for further enhancing the experience of presence and immersion into a simulated environment. The aim is to demonstrate the benefits of VR civilian stress training for emergency personnel and to investigate the role of odors as stressors by manipulating the degree of perceived psychophysiological stress via olfactory impressions. Moreover, the current paper presents the development and validation of a convenient and portable fragrance dosing system that allows personalized odor presentation in VR. The presented system can transport reproducible small quantities of an air-fragrance mixture close to the human nose using piezoelectric stainless steel micropumps. The results of the fluidic system validation indicate that the micropump is suitable for releasing odors close to the nose with constant amounts of odor presentation. Furthermore, the theoretical background and the planned experimental design of VR stress training, including odor presentation via olfactory VR technology, are elucidated.}, note = {}, institution = {Universität der Bundeswehr München, Fakultät für Humanwissenschaften;Fakultät für Informatik, HUM 7 - Institut für Psychologie;INF 3 - Institut für Technische Informatik, Professur: Hofmann, Marko ; Renner, Karl-Heinz}, }