ActivitySpace: Managing Device Ecologies in an Activity-Centric Configuration Space

Mobile devices have become an intrinsic part of people's everyday life. They are multifunctional devices providing ubiquitous access to many different sources of information. Together with traditional personal computers, these devices form a device ecology that provides access to an overlapping information space. Previous studies have shown that users encounter a number of fundamental problems when interacting with these device ecologies, such as lack of transparency, control, intelligibility and context. To mitigate these problems, we introduce ActivitySpace: an activity-centric configuration space that enables the user to integrate and work across several devices by utilizing the space between the devices. This paper presents the conceptual background and design of ActivitySpace and reports on a study with nine participants. Our study shows that ActivitySpace helps users to easily manage devices and their allocated resources while also exposing a number of usage patterns. \

[1]  Elizabeth D. Mynatt,et al.  It feels better than filing: everyday work experiences in an activity-based computing system , 2009, CHI.

[2]  Yang Li,et al.  Deep shot: a framework for migrating tasks across devices using mobile phone cameras , 2011, CHI.

[3]  Thomas Pederson,et al.  A Situative Space Model for Mobile Mixed-Reality Computing , 2011, IEEE Pervasive Computing.

[4]  Robert Hardy,et al.  Touch & interact: touch-based interaction of mobile phones with displays , 2008, Mobile HCI.

[5]  Michael J. Muller,et al.  One-hundred days in an activity-centric collaboration environment based on shared objects , 2004, CHI.

[6]  Thomas G. Dietterich,et al.  TaskTracer: a desktop environment to support multi-tasking knowledge workers , 2005, IUI.

[7]  Meredith Ringel Morris,et al.  DiamondSpin: an extensible toolkit for around-the-table interaction , 2004, CHI.

[8]  James H. Aylor,et al.  Computer for the 21st Century , 1999, Computer.

[9]  Brian P. Bailey,et al.  ARIS: An Interface for Application Relocation in an Interactive Space , 2004, Graphics Interface.

[10]  Blair MacIntyre,et al.  Support for multitasking and background awareness using interactive peripheral displays , 2001, UIST '01.

[11]  David Dearman,et al.  It's on my other computer!: computing with multiple devices , 2008, CHI.

[12]  Jakob E. Bardram,et al.  TIDE: Lightweight Device Composition for Enhancing Tabletop Environments with Smartphone Applications , 2013, INTERACT.

[13]  Jakob E. Bardram,et al.  Activity-based computing for medical work in hospitals , 2009, TCHI.

[14]  Clemens Nylandsted Klokmose,et al.  The Human–Artifact Model: An Activity Theoretical Approach to Artifact Ecologies , 2011, Hum. Comput. Interact..

[15]  Terry Winograd,et al.  PointRight: experience with flexible input redirection in interactive workspaces , 2002, UIST '02.

[16]  Dominik Schmidt PhoneTouch: a technique for direct phone interaction on surfaces , 2010, ITS '10.

[17]  James D. Hollan,et al.  ObjecTop: occlusion awareness of physical objects on interactive tabletops , 2013, ITS.

[18]  Jun Rekimoto,et al.  Pick-and-drop: a direct manipulation technique for multiple computer environments , 1997, UIST '97.

[19]  Daniel J. Wigdor,et al.  A field study of multi-device workflows in distributed workspaces , 2013, UbiComp.

[20]  Jakob E. Bardram,et al.  Support for activity-based computing in a personal computing operating system , 2006, CHI.

[21]  Alessio Malizia,et al.  Light on horizontal interactive surfaces: Input space for tabletop computing , 2014, CSUR.

[22]  Norbert A. Streitz,et al.  i-LAND: an interactive landscape for creativity and innovation , 1999, CHI '99.

[23]  Jakob E. Bardram,et al.  ActivityDesk: multi-device configuration work using an interactive desk , 2013, CHI Extended Abstracts.

[24]  Kenton O'Hara Interactivity and non-interactivity on tabletops , 2010, CHI.

[25]  Antti Oulasvirta,et al.  Mobile kits and laptop trays: managing multiple devices in mobile information work , 2007, CHI.

[26]  Clemens Nylandsted Klokmose,et al.  Dynamics in artifact ecologies , 2012, NordiCHI.

[27]  Darren Leigh,et al.  DiamondTouch: a multi-user touch technology , 2001, UIST '01.

[28]  Erik Stolterman,et al.  Toward a framework for ecologies of artifacts: how are digital artifacts interconnected within a personal life? , 2008, NordiCHI.

[29]  Björn Hartmann,et al.  Augmenting interactive tables with mice & keyboards , 2009, UIST '09.

[30]  Meredith Ringel Morris,et al.  Code space: touch + air gesture hybrid interactions for supporting developer meetings , 2011, ITS '11.

[31]  Xiaojun Bi,et al.  Magic desk: bringing multi-touch surfaces into desktop work , 2011, CHI.

[32]  Kori Inkpen Quinn,et al.  DeskJockey: Exploiting Passive Surfaces to Display Peripheral Information , 2007, INTERACT.

[33]  Kathy Ryall,et al.  UbiTable: Impromptu Face-to-Face Collaboration on Horizontal Interactive Surfaces , 2003, UbiComp.

[34]  Sebastian Boring,et al.  Gradual engagement: facilitating information exchange between digital devices as a function of proximity , 2012, ITS.

[35]  Jakob E. Bardram,et al.  NooSphere: an activity-centric infrastructure for distributed interaction , 2013, MUM.

[36]  James R. Eagan,et al.  Shared substance: developing flexible multi-surface applications , 2011, CHI.

[37]  Jakob E. Bardram,et al.  ReticularSpaces: activity-based computing support for physically distributed and collaborative smart spaces , 2012, CHI.

[38]  Jun Rekimoto,et al.  Augmented surfaces: a spatially continuous work space for hybrid computing environments , 1999, CHI '99.

[39]  Mary Beth Rosson,et al.  A laboratory method for studying activity awareness , 2004, NordiCHI '04.

[40]  Kris Luyten,et al.  Activity-centric support for ad hoc knowledge work: a case study of co-activity manager , 2013, CHI.

[41]  Nicholas Chen,et al.  Designing a multi-slate reading environment to support active reading activities , 2012, TCHI.

[42]  Andrew D. Wilson,et al.  BlueTable: connecting wireless mobile devices on interactive surfaces using vision-based handshaking , 2007, GI '07.

[43]  Paul Dourish,et al.  Unpacking "privacy" for a networked world , 2003, CHI '03.

[44]  Desney S. Tan,et al.  Impromptu: a new interaction framework for supporting collaboration in multiple display environments and its field evaluation for co-located software development , 2008, CHI.