An Exploration of Form Factors for Sleep-Olfactory Interfaces

Releasing scent during sleep has been shown to influence the emotional valence of dreams, reduce cigarette smoking behavior, strengthen memories as well as enhance restorative slow-wave activity. Nevertheless, current scent technologies used in sleep laboratories are not portable and require the use of nasal masks and large olfactometers. In this paper we investigated the preferred form factor and acceptance of a set of biometric wearables that can release scent based on the user’s physiological state. We conducted an online survey with 163 participants and evaluated 8 different form factors. The results showed that 73.5% of the subjects preferred the designs that are not wearable during the night but that can be worn during the day. We provide insights to take into account for the design of next generation sleep-olfactory technologies. We provide a literature review of sleep and scent studies and discuss the opportunities for well-being and memory applications.

[1]  M. Carskadon,et al.  Minimal olfactory perception during sleep: why odor alarms will not work for humans. , 2004, Sleep.

[2]  K. Hörmann,et al.  Information processing during sleep: the effect of olfactory stimuli on dream content and dream emotions , 2009, Journal of sleep research.

[3]  Björn Rasch,et al.  Reactivating Memories during Sleep by Odors: Odor Specificity and Associated Changes in Sleep Oscillations , 2014, Journal of Cognitive Neuroscience.

[4]  Judith Amores Fernandez Essence : olfactory interfaces for unconscious influence of mood and cognitive performance , 2016 .

[5]  Christopher Miller,et al.  Olfoto: designing a smell-based interaction , 2006, CHI.

[6]  Eric W. Gobel,et al.  Cued Memory Reactivation During Sleep Influences Skill Learning , 2012, Nature Neuroscience.

[7]  M. Schredl,et al.  Olfactory Stimulation During Sleep Can Reactivate Odor-Associated Images , 2014, Chemosensory Perception.

[8]  Carlos Velasco,et al.  Digitizing the chemical senses: Possibilities & pitfalls , 2017, Int. J. Hum. Comput. Stud..

[9]  Joel L. Voss,et al.  Strengthening Individual Memories by Reactivating Them During Sleep , 2009, Science.

[10]  J. Born,et al.  Odor Cues During Slow-Wave Sleep Prompt Declarative Memory Consolidation , 2007, Science.

[11]  Jens G. Klinzing,et al.  Odor cueing during slow-wave sleep benefits memory independently of low cholinergic tone , 2017, Psychopharmacology.

[12]  Shinjiro Kawato,et al.  Projection based olfactory display with nose tracking , 2004, IEEE Virtual Reality 2004.

[13]  Enrico Rukzio,et al.  inScent: a wearable olfactory display as an amplification for mobile notifications , 2017, SEMWEB.

[14]  N. Sobel,et al.  Odors enhance slow-wave activity in non-rapid eye movement sleep. , 2016, Journal of neurophysiology.

[15]  J. Born,et al.  No effect of odor-induced memory reactivation during REM sleep on declarative memory stability , 2014, Front. Syst. Neurosci..

[16]  Joseph Nathaniel Kaye,et al.  Symbolic olfactory display , 2001 .

[17]  Judith Amores,et al.  BioEssence: A Wearable Olfactory Display that Monitors Cardio-respiratory Information to Support Mental Wellbeing , 2018, 2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC).

[18]  J. Born,et al.  Labile or stable: opposing consequences for memory when reactivated during waking and sleep , 2011, Nature Neuroscience.

[19]  Marianna Obrist,et al.  OSpace: Towards a Systematic Exploration of Olfactory Interaction Spaces , 2017, ISS.

[20]  Fear memories require protein synthesis in the amygdala for reconsolidation after retrieval , 2022 .

[21]  T. Hummel,et al.  New determinants of olfactory habituation , 2017, Scientific Reports.

[22]  N. Sobel,et al.  The influence of odorants on respiratory patterns in sleep. , 2010, Chemical senses.

[23]  R. Stickgold,et al.  Dissociable stages of human memory consolidation and reconsolidation , 2003, Nature.

[24]  Richard Corbett,et al.  AROMA: ambient awareness through olfaction in a messaging application , 2004, ICMI '04.

[25]  T. Field,et al.  Lavender bath oil reduces stress and crying and enhances sleep in very young infants. , 2008, Early human development.

[26]  N. Sobel,et al.  Olfactory Aversive Conditioning during Sleep Reduces Cigarette-Smoking Behavior , 2014, The Journal of Neuroscience.