UbiComp for animal welfare: envisioning smart environments for kenneled dogs

Whilst the ubicomp community has successfully embraced a number of societal challenges for human benefit, including healthcare and sustainability, the well-being of other animals is hitherto underrepresented. We argue that ubicomp technologies, including sensing and monitoring devices as well as tangible and embodied interfaces, could make a valuable contribution to animal welfare. This paper particularly focuses on dogs in kenneled accommodation, as we investigate the opportunities and challenges for a smart kennel aiming to foster canine welfare. We conducted an in-depth ethnographic study of a dog rehoming center over four months; based on our findings, we propose a welfare-centered framework for designing smart environments, integrating monitoring and interaction with information management. We discuss the methodological issues we encountered during the research and propose a smart ethnographic approach for similar projects.

[1]  Hans-Werner Gellersen,et al.  Cooperative augmentation of mobile smart objects with projected displays , 2013, TIIS.

[2]  R. Elwood,et al.  Why Animals Matter. Animal Consciousness, Animal Welfare, and Human Well-being Why Animals Matter. Animal Consciousness, Animal Welfare, and Human Well-being, By Marian Stamp Dawkins. Oxford: Oxford University Press (2012). Pp. vii+209. Price £16.99 hardback. , 2012, Animal Behaviour.

[3]  Austin Henderson,et al.  Interaction design: beyond human-computer interaction , 2002, UBIQ.

[4]  Jacqueline M Stephen,et al.  An Audit of Behavioral Indicators of Poor Welfare in Kenneled Dogs in the United Kingdom , 2005, Journal of applied animal welfare science : JAAWS.

[5]  Marian Stamp Dawkins,et al.  Battery hens name their price: Consumer demand theory and the measurement of ethological ‘needs’ , 1983, Animal Behaviour.

[6]  Trevor B. Poole,et al.  Correlates of pen size and housing conditions on the behaviour of kennelled dogs , 1992 .

[7]  Terry L. Whiting,et al.  Understanding Animal Welfare: The Science in its Cultural Context , 2011 .

[8]  Wei Chen,et al.  Monitoring body temperature of newborn infants at neonatal intensive care units using wearable sensors , 2010, BODYNETS.

[9]  Henk Hogeveen,et al.  Milking interval, milk production and milk flow-rate in an automatic milking system , 2001 .

[10]  Emile H. L. Aarts,et al.  True Visions: The Emergence of Ambient Intelligence , 2008 .

[11]  Kevin Curran,et al.  HABITS: a Bayesian filter approach to indoor tracking and location , 2011, Int. J. Bio Inspired Comput..

[12]  Timo Ojala,et al.  Gesture interaction for wall-sized touchscreen display , 2013, UbiComp.

[13]  Daniel Mills,et al.  Stress and Pheromonatherapy in Small Animal Clinical Behaviour , 2012 .

[14]  Clara Mancini,et al.  Animal-computer interaction: a manifesto , 2011, INTR.

[15]  N. Carlson Psychology: The Science of Behavior , 1987 .

[16]  Hubrecht Rc,et al.  Enrichment in puppyhood and its effects on later behavior of dogs. , 1995 .

[17]  Adrian David Cheok,et al.  A mobile pet wearable computer and mixed reality system for human–poultry interaction through the internet , 2006, Personal and Ubiquitous Computing.

[18]  Franz Gravenhorst,et al.  Towards long term monitoring of electrodermal activity in daily life , 2013, Personal and Ubiquitous Computing.

[19]  Rover@Home: Computer Mediated Remote Interaction for Dogs , 2001 .

[20]  E. H. L. Aarts,et al.  True Visions: The Emergence of Ambient Intelligence (Frontiers Collection) , 2006 .

[21]  Clara Mancini,et al.  Animal-computer interaction (ACI): changing perspective on HCI, participation and sustainability , 2013, CHI Extended Abstracts.

[22]  D. Weary,et al.  A Scientific Conception of Animal Welfare that Reflects Ethical Concerns , 1997, Animal Welfare.

[23]  Hiroshi Ishii,et al.  Tangible User Interfaces , 2006 .

[24]  SchummJohannes,et al.  Towards long term monitoring of electrodermal activity in daily life , 2013 .

[25]  Frederick Toates,et al.  Cognition, motivation, emotion and action: a dynamic and vulnerable interdependence , 2004 .

[26]  J. Panksepp Affective Neuroscience: The Foundations of Human and Animal Emotions , 1998 .

[27]  Daniel Mills,et al.  The effect of the kennel environment on canine welfare: a critical review of experimental studies , 2007, Animal Welfare.

[28]  Vincent Martin,et al.  FIDO - facilitating interactions for dogs with occupations: wearable dog-activated interfaces , 2013, ISWC '13.

[29]  Michael L. Newman,et al.  Journal Editorial Policies, Animal Welfare, and the 3Rs , 2009, The American journal of bioethics : AJOB.

[30]  L. Keeling,et al.  Assessment of positive emotions in animals to improve their welfare , 2007, Physiology & Behavior.

[31]  Douglas Schuler,et al.  Participatory Design: Principles and Practices , 1993 .

[32]  Irina Shklovski,et al.  The commodification of location: dynamics of power in location-based systems , 2009, UbiComp.

[33]  Milton L. Blum,et al.  Psychology: the science of behavior , 1967 .

[34]  D. Broom,et al.  Stress and Animal Welfare , 1993, Springer Netherlands.

[35]  Deborah L. Wells,et al.  The influence of toys on the behaviour and welfare of kennelled dogs , 2004, Animal Welfare.

[36]  Andrew Stuart,et al.  Exploring interspecies sensemaking: dog tracking semiotics and multispecies ethnography , 2012, UbiComp.

[37]  R. Vere,et al.  World Society for the Protection of Animals - advanced concepts in the animal welfare programme for veterinary schools. , 2010 .

[38]  Yael Edan,et al.  Vision-based hand-gesture applications , 2011, Commun. ACM.

[39]  Marian Stamp Dawkins,et al.  Prediction of welfare outcomes for broiler chickens using Bayesian regression on continuous optical flow data , 2012, Journal of The Royal Society Interface.

[40]  Michael L. Littman,et al.  Activity Recognition from Accelerometer Data , 2005, AAAI.

[41]  Stefano Gualeni,et al.  Digitally complemented zoomorphism: a theoretical foundation for human-animal interaction design , 2013, DPPI.

[42]  Jim Esch,et al.  A Survey on Ambient Intelligence in Healthcare , 2013, Proc. IEEE.

[43]  Petra A. Mertens,et al.  Effects of group and individual housing on the behavior of kennelled dogs in animal shelters , 1996 .

[44]  R. Hubrecht,et al.  Enrichment in puppyhood and its effects on later behavior of dogs. , 1995, Laboratory animal science.

[45]  Eva Hornecker,et al.  Tangible User Interfaces , 2010 .

[46]  Deborah L. Wells,et al.  The Influence of Auditory Stimulation on the Behaviour of Dogs Housed in a Rescue Shelter , 2002, Animal Welfare.

[47]  Clara Mancini,et al.  Canine-centered interface design: supporting the work of diabetes alert dogs , 2014, CHI.