Developing a depth-based tracking system for interactive playful environments with animals

Digital games for animals within Animal Computer Interaction are usually single-device oriented, however richer interactions could be delivered by considering multimodal environments and expanding the number of technological elements involved. In these playful ecosystems, animals could be either alone or accompanied by human beings, but in both cases the system should react properly to the interactions of all the players, creating more engaging and natural games. Technologically-mediated playful scenarios for animals will therefore require contextual information about the game participants, such as their location or body posture, in order to suitably adapt the system reactions. This paper presents a depth-based tracking system for cats capable of detecting their location, body posture and field of view. The proposed system could also be extended to locate and detect human gestures and track small robots, becoming a promising component in the creation of intelligent interspecies playful environments.

[1]  David Herman,et al.  Human gesture recognition using top view depth data obtained from Kinect sensor , 2015 .

[2]  Blair MacIntyre,et al.  RoomAlive: magical experiences enabled by scalable, adaptive projector-camera units , 2014, UIST.

[3]  Joseph J. LaViola,et al.  Early explorations of CAT: canine amusement and training , 2010, CHI Extended Abstracts.

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

[5]  David L. Roberts,et al.  Toward Cyber-Enhanced Working Dogs for Search and Rescue , 2014, IEEE Intelligent Systems.

[6]  David L. Roberts,et al.  Behavior recognition based on machine learning algorithms for a wireless canine machine interface , 2012, 2013 IEEE International Conference on Body Sensor Networks.

[7]  Patricia Pons,et al.  Envisioning Future Playful Interactive Environments for Animals , 2015 .

[8]  David L. Roberts,et al.  Behavior recognition based on machine learning algorithms for a wireless canine machine interface , 2013, BSN.

[9]  Steve North,et al.  HABIT: Horse Automated Behaviour Identification Tool - a position paper , 2015 .

[10]  Cassim Ladha,et al.  Dog's life: wearable activity recognition for dogs , 2013, UbiComp.

[11]  Qigang Gao,et al.  DT-DT: Top-down Human Activity Analysis for Interactive Surface Applications , 2014, ITS '14.

[12]  Oskar Juhlin,et al.  Communication technology for human-dog interaction: exploration of dog owners' experiences and expectations , 2011, CHI.

[13]  Roshan Lalintha Peiris,et al.  Metazoa Ludens: Mixed-Reality Interaction and Play for Small Pets and Humans , 2011, IEEE Transactions on Systems, Man, and Cybernetics - Part A: Systems and Humans.

[14]  A. Hodgson,et al.  Unmanned Aerial Vehicles (UAVs) for Surveying Marine Fauna: A Dugong Case Study , 2013, PloS one.

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

[16]  Rui Trindade,et al.  Purrfect Crime: Exploring Animal Computer Interaction through a Digital Game for Humans and Cats , 2015, CHI Extended Abstracts.

[17]  Oskar Juhlin,et al.  Understanding people and animals: the use of a positioning system in ordinary human-canine interaction , 2011, CHI.

[18]  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.

[19]  Javier Jaén Martínez,et al.  Animal Ludens: Building Intelligent Playful Environments for Animals , 2014, ACE '14 Workshops.

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

[21]  Hrvoje Benko,et al.  Dyadic projected spatial augmented reality , 2014, UIST.

[22]  Eyal Ofek,et al.  IllumiRoom: peripheral projected illusions for interactive experiences , 2013, SIGGRAPH '13.

[23]  Jun Rekimoto,et al.  Cat@Log: sensing device attachable to pet cats for supporting human-pet interaction , 2009, Advances in Computer Entertainment Technology.