An exploratory analysis of partner action and camera control in a video-mediated collaborative task

This paper reports on an exploratory experimental study of the relationships between physical movement and desired visual information in the performance of video-mediated collaborative tasks in the real world by geographically distributed groups. Twenty-three pairs of participants (one "helper" and one "worker") linked only by video and audio participated in a Lego construction task in one of three experimental conditions: a fixed scene camera, a helper-controlled pan-tilt-zoom camera, and a dedicated operator-controlled camera. "Worker" motion was tracked in 3-D space for all three conditions, as were all camera movements. Results suggest performance benefits for the operator-controlled condition, and the relationships between camera position/movement and worker action are explored to generate preliminary theoretical and design implications.

[1]  B. Davies,et al.  Robotic surgery , 1993, IEEE Engineering in Medicine and Biology Magazine.

[2]  M. F. Schober Spatial perspective-taking in conversation , 1993, Cognition.

[3]  Hideaki Kuzuoka,et al.  Spatial workspace collaboration: a SharedView video support system for remote collaboration capability , 1992, CHI.

[4]  G. Ballantyne Robotic surgery, telerobotic surgery, telepresence, and telementoring , 2002, Surgical Endoscopy And Other Interventional Techniques.

[5]  Susan R. Fussell,et al.  Gestures Over Video Streams to Support Remote Collaboration on Physical Tasks , 2004, Hum. Comput. Interact..

[6]  Judith S. Olson,et al.  Distance Matters , 2000, Hum. Comput. Interact..

[7]  Robert E. Kraut,et al.  Effects of head-mounted and scene-oriented video systems on remote collaboration on physical tasks , 2003, CHI '03.

[8]  John Canny,et al.  PRoP : Personal Roving Presence , 2007 .

[9]  Anoop Gupta,et al.  Videography for telepresentations , 2003, CHI '03.

[10]  Robert E. Kraut,et al.  Visual Information as a Conversational Resource in Collaborative Physical Tasks , 2003, Hum. Comput. Interact..

[11]  Carl Gutwin,et al.  A Descriptive Framework of Workspace Awareness for Real-Time Groupware , 2002, Computer Supported Cooperative Work (CSCW).

[12]  Abigail Sellen,et al.  One is not enough: multiple views in a media space , 1993, INTERCHI.

[13]  Susan R. Fussell,et al.  Analyzing and predicting focus of attention in remote collaborative tasks , 2005, ICMI '05.

[14]  Yutaka Matsushita,et al.  Learning from TV programs: application of TV presentation to a videoconferencing system , 1995, UIST '95.

[15]  Laurent Karsenty,et al.  Cooperative Work and Shared Visual Context: An Empirical Study of Comprehension Problems in Side-by-Side and Remote Help Dialogues , 1999, Hum. Comput. Interact..

[16]  Robert E. Kraut,et al.  Action as language in a shared visual space , 2004, CSCW.

[17]  Allan Kuchinsky,et al.  Turning away from talking heads: the use of video-as-data in neurosurgery , 1993, INTERCHI.

[18]  George W. Furnas,et al.  Future Design Mindful of the MoRAS , 2000, Hum. Comput. Interact..

[19]  H. H. Clark Arenas of language use , 1993 .

[20]  James D. Myers,et al.  Collaboratories: Doing Science on the Internet , 1996, Computer.

[21]  Gwyneth Doherty-Sneddon,et al.  Comparison of Face-to-Face and Video-Mediated Interaction , 1996, Interact. Comput..

[22]  Thomas A. Finholt,et al.  Collaboratories as a new form of scientific organization , 2003 .

[23]  Rainer Stiefelhagen,et al.  Pointing gesture recognition based on 3D-tracking of face, hands and head orientation , 2003, ICMI '03.

[24]  Norman P. Jouppi,et al.  First steps towards mutually-immersive mobile telepresence , 2002, CSCW '02.

[25]  Robert E. Kraut,et al.  Coordination of communication: effects of shared visual context on collaborative work , 2000, CSCW '00.

[26]  Allen Newell,et al.  The psychology of human-computer interaction , 1983 .

[27]  Susan R. Fussell,et al.  Effects of task properties, partner actions, and message content on eye gaze patterns in a collaborative task , 2005, CHI.

[28]  Anoop Gupta,et al.  Viewing meeting captured by an omni-directional camera , 2001, CHI.

[29]  John S. Boreczky,et al.  FlySPEC: a multi-user video camera system with hybrid human and automatic control , 2002, MULTIMEDIA '02.

[30]  Xiaolan Fu,et al.  Video helps remote work: speakers who need to negotiate common ground benefit from seeing each other , 1999, CHI '99.

[31]  Herbert H. Clark,et al.  Grounding in communication , 1991, Perspectives on socially shared cognition.