A mobile system for industrial maintenance support based on embodied interaction

This paper presents a mobile assistance system for service and maintenance personnel in industrial facilities. It provides an innovative interaction metaphor designed to fit domain specific working conditions. As a result of a strictly user-centered design process, the presented system follows the principles of Embodied Interaction. The system is evaluated using a sophisticated scenario in a typical industrial environment. The evaluation also includes a comparison with the conventional paper & pencil-based maintenance workflow. A detailed discussion addresses problems of mobile usability evaluation in industrial environments and provides appropriate solutions. The results presented in this paper demonstrate that the proposed system allows for effective and satisfactory service and maintenance. It contributes further insights for utilization and evaluation of embodied systems in industrial applications. Potential applications of this research include design guidelines for future interface configurations using embodied interactive devices.

[1]  Lada Gorlenko,et al.  No wires attached: Usability challenges in the connected mobile world , 2003, IBM Syst. J..

[2]  Daniel P. Siewiorek,et al.  Very rapid prototyping of wearable computers: a case study of custom versus off-the-shelf design methodologies , 1997, DAC.

[3]  Steinar Kristoffersen,et al.  “Making place” to make IT work: empirical explorations of HCI for mobile CSCW , 1999, GROUP.

[4]  Jakob Tholander,et al.  Towards a new set of ideals: consequences of the practice turn in tangible interaction , 2008, TEI.

[5]  Maury A. Nussbaum,et al.  Effects of wearing chemical protective clothing on text entry when using wearable input devices , 2007 .

[6]  Susumu Saito,et al.  Ergonomics of human-system interaction , 1994 .

[7]  James F. Knight,et al.  Effect of Head-Mounted Displays on Posture , 2007, Hum. Factors.

[8]  Greg Corness,et al.  What the body knows: Exploring the benefits of embodied metaphors in hybrid physical digital environments , 2009, Interact. Comput..

[9]  Carsten Wittenberg Benutzeranforderungen für den Einsatz von mobilen Endgeräten in der Industrieautomatisierung (User Requirements for the Use of Mobile Devices in the Industrial Automation) , 2004 .

[10]  Kevin Barraclough,et al.  I and i , 2001, BMJ : British Medical Journal.

[11]  Luca Chittaro,et al.  Visualizing information on mobile devices , 2006, Computer.

[12]  Bruce H. Thomas,et al.  Evaluation of three wearable computer pointing devices for selection tasks , 2005, Ninth IEEE International Symposium on Wearable Computers (ISWC'05).

[13]  Ivo Düntsch,et al.  The IsoMetrics usability inventory: An operationalization of ISO 9241-10 supporting summative and formative evaluation of software systems , 1999, Behav. Inf. Technol..

[14]  Leon Urbas,et al.  Realization of Tangible Mobile Human Machine Interfaces Using Wireless Personal Area Networks , 2009 .

[15]  Paul Dourish,et al.  Where the action is , 2001 .

[16]  Hiroshi Ishii,et al.  Simplicity in interaction design , 2007, TEI.

[17]  Elise van den Hoven,et al.  Design research & tangible interaction , 2007, TEI.

[18]  Eva Hornecker,et al.  A Design Theme for Tangible Interaction: Embodied Facilitation , 2005, ECSCW.

[19]  Jacob Buur,et al.  Tangible user interfaces for configuration practices , 2007, Tangible and Embedded Interaction.

[20]  Parag C. Pendharkar,et al.  Human-computer interaction issues for mobile computing in a variable work context , 2004, Int. J. Hum. Comput. Stud..

[21]  Jacob Buur,et al.  Designing the user actions in tangible interaction , 2005, Critical Computing.