HeatCraft: Playing with Ingestible Sensors via Localised Sensations

Ingestible sensors are digital devices that can measure the user's body data after being swallowed and hence have great potential in medical use. Unfortunately, few studies have considered the playful experiences afforded by ingestible sensors. We believe that the use of localised sensations, such as those created by heat, to represent the data measured by ingestible sensors offers opportunities to support experiencing the body as play. To explore this opportunity, we introduce a two-player system called HeatCraft that uses an ingestible sensor to measure the users' body temperature and employs thermal stimuli to provide feedback. Similar to open-ended games, HeatCraft allows players to decide when and what to do in order to know more about their body, facilitating playful experiences of exploration and discovery. With this work, we aim to inspire game designers and HCI researchers to consider localised sensations when designing playful and engaging experiences around ingestible sensors.

[1]  Chris Easton,et al.  Rectal, telemetry pill and tympanic membrane thermometry during exercise heat stress , 2007 .

[2]  Silvia Lindtner,et al.  Fish'n'Steps: Encouraging Physical Activity with an Interactive Computer Game , 2006, UbiComp.

[3]  Florian Mueller,et al.  4 design themes for skateboarding , 2013, CHI.

[4]  Evangelos Karapanos,et al.  Playful or Gameful?: creating delightful user experiences , 2014, INTR.

[5]  J. Slatman,et al.  Our Strange Body: Philosophical Reflections on Identity and Medical Interventions , 2014 .

[6]  Nicholas Walliman,et al.  Social research methods , 2006 .

[7]  Florian Mueller,et al.  Life Tree: Understanding the Design of Breathing Exercise Games , 2017, CHI PLAY.

[8]  Tovi Grossman,et al.  Implanted user interfaces , 2012, CHI.

[9]  Kristina Höök,et al.  Somaesthetic Appreciation Design , 2016, CHI.

[10]  Florian Mueller,et al.  Experiencing the Body as Play , 2018, CHI.

[11]  Larissa Hjorth,et al.  TastyBeats: Designing Palatable Representations of Physical Activity , 2015, CHI.

[12]  David W. McDonald,et al.  Activity sensing in the wild: a field trial of ubifit garden , 2008, CHI.

[13]  Lili Liu,et al.  The Use of Wearable Technologies and Body Awareness: A Body-Tool Relationship Perspective , 2016, HCI.

[14]  T. C. Nicholas Graham,et al.  Heart rate control of exercise video games , 2009, Graphics Interface.

[15]  K. Squire Open-Ended Video Games: A Model for Developing Learning for the Interactive Age , 2007 .

[16]  Changchun Liu,et al.  Dynamic Difficulty Adjustment in Computer Games Through Real-Time Anxiety-Based Affective Feedback , 2009, Int. J. Hum. Comput. Interact..

[17]  Max van Manen,et al.  Modalities of Body Experience in Illness and Health , 1998 .

[18]  K. Warwick Cyborg morals, cyborg values, cyborg ethics , 2003, Ethics and Information Technology.

[19]  Michael Rohs,et al.  Squeezeback: Pneumatic Compression for Notifications , 2017, CHI.

[20]  Marko Turpeinen,et al.  The influence of implicit and explicit biofeedback in first-person shooter games , 2010, CHI.

[21]  G. Mower Perceived intensity of peripheral thermal stimuli is independent of internal body temperature. , 1976, Journal of comparative and physiological psychology.

[22]  Muhammad Naeem,et al.  Human Computer Interaction (HCI) in Ubiquitous Computing , 2014 .

[23]  Kristina Höök,et al.  The Aesthetics of Heat: Guiding Awareness with Thermal Stimuli , 2016, TEI.

[24]  Stefan Greuter,et al.  Ingestible Games: Swallowing a Digital Sensor to Play a Game , 2017, CHI PLAY.

[25]  Dimitrios D. Koutsouris,et al.  A survey on an ingestible sensor for evaluating medication adherence in elderly people , 2015, PETRA.

[26]  C. L. Lim,et al.  The ingestible telemetric body core temperature sensor: a review of validity and exercise applications , 2006, British Journal of Sports Medicine.

[27]  Larissa Hjorth,et al.  EdiPulse: Investigating a Playful Approach to Self-monitoring through 3D Printed Chocolate Treats , 2017, CHI.

[28]  T. Arslan,et al.  Review of Communication Systems for Ingestible Miniaturized Integrated Sensor Microsystems , 2009, 2009 Advanced Technologies for Enhanced Quality of Life.

[29]  V. Braun,et al.  Using thematic analysis in psychology , 2006 .

[30]  Frank Vetere,et al.  You Put What, Where?: Hobbyist Use of Insertable Devices , 2016, CHI.

[31]  Xin Liu,et al.  Body-Borne Computers as Extensions of Self , 2017, Comput..

[32]  Wei Wang,et al.  The Guts Game: Towards Designing Ingestible Games , 2018, CHI PLAY.

[33]  Karen Twomey,et al.  Swallowable-Capsule Technology , 2008, IEEE Pervasive Computing.

[34]  Märtha Sund-Levander,et al.  Normal oral, rectal, tympanic and axillary body temperature in adult men and women: a systematic literature review. , 2002, Scandinavian journal of caring sciences.

[35]  Deborah Lupton,et al.  How does health feel? Towards research on the affective atmospheres of digital health , 2017, Digital health.