Cyclists’ Use of Technology While on Their Bike

Cycling continues to grow in popularity, both as a means to commute and for exercise. While there is a plethora of research studying technology use in vehicular travel, cycling remains a relatively understudied area—especially within HCI. We conducted an ethnography, adopting an ethnomethodological lens, to study cyclists as they use their bicycles for routine purposes. Through the use of a handlebar-mounted 360-degree action video camera, we conducted our study longitudinally with participants over a number of weeks. Our analysis explicates our participants accountable use of different electronic technologies while on the go and in this paper we present four fragments of their use of different technologies as exemplars from our corpus. Our paper offers insights into the use of technology on bicycles, including how cyclists select moments of opportunity to use technology for different purposes. We conclude by offering design implications for the design of interactive technologies for cyclists.

[1]  Jizhou Huang,et al.  DuIVA: An Intelligent Voice Assistant for Hands-free and Eyes-free Voice Interaction with the Baidu Maps App , 2022, KDD.

[2]  Michael D. Jones,et al.  Outside Where? A Survey of Climates and Built Environments in Studies of HCI outdoors , 2022, CHI.

[3]  Markus Löchtefeld,et al.  Cycling@CHI: Towards a Research Agenda for HCI in the Bike Lane , 2021, CHI Extended Abstracts.

[4]  Stephen A. Brewster,et al.  TactiHelm: Tactile Feedback in a Cycling Helmet for Collision Avoidance , 2021, CHI Extended Abstracts.

[5]  Andrii Matviienko,et al.  Quantified Cycling Safety: Towards a Mobile Sensing Platform to Understand Perceived Safety of Cyclists , 2021, CHI Extended Abstracts.

[6]  A. Nikitas,et al.  Cycling in the Era of COVID-19: Lessons Learnt and Best Practice Policy Recommendations for a More Bike-Centric Future , 2021, Sustainability.

[7]  J. Pucher,et al.  COVID-19 Impacts on Cycling, 2019–2020 , 2021 .

[8]  Peter Tolmie,et al.  Ethnography, CSCW and Ethnomethodology , 2020, Computer Supported Cooperative Work (CSCW).

[9]  Pawel W. Wo'zniak,et al.  Brotate and Tribike: Designing Smartphone Control for Cycling , 2020, MobileHCI.

[10]  M. Lloyd Getting by: The ethnomethods of everyday cycling navigation , 2020 .

[11]  Barry A. T. Brown,et al.  Notes on the practices and appearances of e-scooter users in public space , 2020, Journal of Transport Geography.

[12]  Víctor Marín Puchades,et al.  Use of smartphone and crash risk among cyclists , 2020, Journal of Transportation Safety & Security.

[13]  Airi Lampinen,et al.  Away and (Dis)connection , 2019, Proc. ACM Hum. Comput. Interact..

[14]  Barry A. T. Brown,et al.  From Nomadic Work to Nomadic Leisure Practice , 2019, Proc. ACM Hum. Comput. Interact..

[15]  Uichin Lee,et al.  Predicting opportune moments for in-vehicle proactive speech services , 2019, UbiComp/ISWC Adjunct.

[16]  Florian Mueller,et al.  GameLight - Gamification of the Outdoor Cycling Experience , 2019, Conference on Designing Interactive Systems.

[17]  Andrii Matviienko,et al.  NaviBike: Comparing Unimodal Navigation Cues for Child Cyclists , 2019, CHI.

[18]  Wendy Ju,et al.  Is Now A Good Time?: An Empirical Study of Vehicle-Driver Communication Timing , 2019, CHI.

[19]  Andrés Lucero,et al.  Technologies for Enhancing Collocated Social Interaction: Review of Design Solutions and Approaches , 2019, Computer Supported Cooperative Work (CSCW).

[20]  Jens Edlund,et al.  The State of Speech in HCI: Trends, Themes and Challenges , 2018, Interact. Comput..

[21]  Renke He,et al.  The Handlebar as an Input Field: Evaluating Finger Gestures Designed for Bicycle Riders , 2018, Advances in Intelligent Systems and Computing.

[22]  Sarah Sharples,et al.  Voice Interfaces in Everyday Life , 2018, CHI.

[23]  Elke E. Mattheiss,et al.  No need to stop: exploring smartphone interaction paradigms while cycling , 2017, MUM.

[24]  Rm Vreugdenhil Encountering the city : waymaking and the mobile practices of cycling , 2017 .

[25]  Sang Ho Yoon,et al.  BikeGesture: User Elicitation and Performance of Micro Hand Gesture as Input for Cycling , 2017, CHI Extended Abstracts.

[26]  Sarah Sharples,et al.  "Do Animals Have Accents?": Talking with Agents in Multi-Party Conversation , 2017, CSCW.

[27]  Karin Slegers,et al.  The Bicycle Barometer: Design and Evaluation of Cyclist-Specific Interaction for a Public Display , 2016, CHI.

[28]  Barry A. T. Brown,et al.  Smartwatch in vivo , 2016, CHI.

[29]  Antonio Krüger,et al.  ClimbAware: Investigating Perception and Acceptance of Wearables in Rock Climbing , 2016, CHI.

[30]  Martin Porcheron,et al.  Using Mobile Phones in Pub Talk , 2016, CSCW.

[31]  Morten Fjeld,et al.  Gesture Bike: Examining Projection Surfaces and Turn Signal Systems for Urban Cycling , 2015, ITS.

[32]  Martin Pielot,et al.  The Do Not Disturb Challenge: A Day Without Notifications , 2015, CHI Extended Abstracts.

[33]  Thijs Roumen,et al.  NotiRing: A Comparative Study of Notification Channels for Wearable Interactive Rings , 2015, CHI.

[34]  Andrés Lucero,et al.  NotifEye: using interactive glasses to deal with notifications while walking in public , 2014, Advances in Computer Entertainment.

[35]  Helga Silaghi,et al.  Voice command of an industrial robot in a noisy environment , 2014, 2014 International Symposium on Fundamentals of Electrical Engineering (ISFEE).

[36]  Florian Mueller,et al.  Interaction opportunities around helmet design , 2014, CHI Extended Abstracts.

[37]  Stephen A. Brewster,et al.  Investigating the effects of encumbrance on one- and two- handed interactions with mobile devices , 2014, CHI.

[38]  Ellen Yi-Luen Do,et al.  Don't mind me touching my wrist: a case study of interacting with on-body technology in public , 2013, ISWC '13.

[39]  John Rooksby,et al.  Wild in the Laboratory: A Discussion of Plans and Situated Actions , 2013, TCHI.

[40]  Barry A. T. Brown,et al.  iPhone in vivo: video analysis of mobile device use , 2013, CHI.

[41]  T. Sarjakoski,et al.  Analysis of verbal route descriptions and landmarks for hiking , 2012, Personal and Ubiquitous Computing.

[42]  Martin Pielot,et al.  Tacticycle: supporting exploratory bicycle trips , 2012, Mobile HCI.

[43]  Morten Fjeld,et al.  Exploring user motivations for eyes-free interaction on mobile devices , 2012, CHI.

[44]  Rachel Aldred,et al.  Constructing Mobile Places between ‘Leisure’ and ‘Transport’: A Case Study of Two Group Cycle Rides , 2012 .

[45]  Makoto Sato,et al.  Realtime sonification of the center of gravity for skiing , 2012, AH '12.

[46]  Kjeld Schmidt,et al.  The Concept of ‘Work’ in CSCW , 2011, Computer Supported Cooperative Work (CSCW).

[47]  Steve Benford,et al.  Investigating episodes of mobile phone activity as indicators of opportune moments to deliver notifications , 2011, Mobile HCI.

[48]  Stephen A. Brewster,et al.  The effects of walking speed on target acquisition on a touchscreen interface , 2011, Mobile HCI.

[49]  Karel Brookhuis,et al.  Mobile phone use while cycling: Incidence and effects on behaviour and safety , 2010, Ergonomics.

[50]  Chris Harrison,et al.  Where to locate wearable displays?: reaction time performance of visual alerts from tip to toe , 2009, CHI.

[51]  Masao Ichikawa,et al.  Japanese High School Students' Usage of Mobile Phones While Cycling , 2008, Traffic injury prevention.

[52]  Oskar Juhlin,et al.  Driving and ‘Passengering’: Notes on the Ordinary Organization of Car Travel , 2008 .

[53]  Ian Oakley,et al.  Designing Eyes-Free Interaction , 2007, HAID.

[54]  Steve Benford,et al.  Supporting ethnographic studies of ubiquitous computing in the wild , 2006, DIS '06.

[55]  Steve Benford,et al.  Moving with the Times: IT Research and the Boundaries of CSCW , 2005, Computer Supported Cooperative Work (CSCW).

[56]  David R. Morse,et al.  AudioGPS: Spatial Audio Navigation with a Minimal Attention Interface , 2002, Personal and Ubiquitous Computing.

[57]  J. M. Atkinson Transcript Notation - Structures of Social Action: Studies in Conversation Analysis , 1999 .

[58]  Richard Bentley,et al.  Ethnographically-informed systems design for air traffic control , 1992, CSCW '92.

[59]  Dan Shapiro,et al.  Faltering from ethnography to design , 1992, CSCW '92.

[60]  H. Garfinkel Studies in Ethnomethodology , 1968 .

[61]  Barry A. T. Brown,et al.  From Nomadic Work to Nomadic Leisure Practice: A Study of Long-term Bike Touring , 2019, Proc. ACM Hum. Comput. Interact..

[62]  Peter Tolmie,et al.  "How Many Bloody Examples Do You Want?" Fieldwork and Generalisation , 2013, ECSCW.

[63]  M. Life,et al.  iPhone in vivo: video analysis of mobile device use , 2013, CHI.

[64]  Robert E. Pinsker,et al.  Alone Together: Why We Expect More from Technology and Less from Each Other. , 2012 .

[65]  J. Hindmarch Video in Qualitative Research: Analysing Social Interaction in Everyday Life , 2012, QMiP Bulletin.

[66]  CLAUDIU GEACĂR,et al.  REDUCING PILOT / ATC COMMUNICATION ERRORS USING VOICE RECOGNITION , 2010 .

[67]  G. Guest,et al.  How Many Interviews Are Enough? An Experiment with Data Saturation and Variability , 2005 .

[68]  Austin Henderson,et al.  Interaction Analysis: Foundations and Practice , 1995 .

[69]  Tom Rodden,et al.  Informing CSCW system requirements , 1994 .

[70]  Eric Livingston,et al.  Making Sense of Ethnomethodology , 1987 .

[71]  H. Garfinkel Studies of the Routine Grounds of Everyday Activities , 1964 .