Abstract
Over the last two decades, researchers have thoroughly investigated the benefits and challenges of large interactive surfaces, highlighting in particular their potential for efficient co-located collaboration and coping with rich content (complex diagrams, multi-layer digital maps, etc.). However, comparative studies that actually evaluate the same tasks on tabletops and other types of systems are still scarce. We have identified crisis management (CM) as promising application context, in which to study such tasks. In CM, people from different organizations use, among others, large paper maps to establish a common understanding of a critical situation, and plan and coordinate appropriate countermeasures. What sets CM apart from other application areas are the very formalized (and different) user roles, and the variations in completeness of the operational picture between involved organizations, both necessitating regular information exchange and collaboration in planning. Based on these characteristics, we have designed a system for interactive tabletops that facilitates collaborative situation analysis and planning by users having different information and planning functionality available. We have then conducted a comparative study, in which 30 participants performed tasks reflecting actual CM work on the tabletop system, classical paper maps and an off-the-shelf desktop GIS. Our goal was to quantify the benefits of tabletops w.r.t. performance, usability, and teamwork quality. We found that users were most efficient using the tabletop and perceived its UX as superior; also, the tabletop offered a teamwork quality comparable to classical paper maps. This indicates that tabletops may indeed be a valuable tool for collaboration in crisis management, and, more generally, for all application areas in which users with different roles collaborate around geospatial data.
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Notes
- 1.
Crossed out requirement numbers indicate a requirement is not met.
- 2.
The main reason for using a (horizontal) table instead of a (vertical) pinboard was to eliminate any differences, in particular regarding collaboration style, that might result from orientation between tabletop and paper map.
- 3.
The tabletop was an exception in this regard as the current implementation does not allow two users to stand at the same side; participants were thus asked to avoid such placing.
- 4.
It should be noted that ESRI recognized this problem and recently started to offer a new software called ArcGIS Pro (http://www.esri.com/en/software/arcgis-pro) which claims to address this problem. We did not have access to ArcGIS Pro at the time of the study, though, and thus cannot report any first-hand experience in this regard.
References
Bader T, Meissner A, Tscherney R (2008) Digital map table with Fovea-Tablett®: Smart furniture for emergency operation centers. In: ISCRAM ’08: international conference on information systems for crisis response and management, pp 679–688
Ball R, North C (2005) Effects of tiled high-resolution display on basic visualization and navigation tasks. In: CHI ’05: extended abstracts of the SIGCHI conference on Human factors in computing systems. ACM, pp 1196–1199
Benko H, Wilson AD, Baudisch P (2006) Precise selection techniques for multi-touch screens. In: CHI ’06: SIGCHI conference on human factors in computing systems. ACM, pp 1263–1272
Buisine S, Besacier G, Aoussat A, Vernier F (2012) How do interactive tabletop systems influence collaboration? Comput Hum Behav 28:49–59
Chokshi A, Seyed T, Marinho Rodrigues F, Maurer F (2014) ePlan Multi-Surface: a multi-surface environment for emergency response planning exercises. In: ITS ’14: international conference on interactive tabletops and surfaces. ACM
Clayphan A, Collins A, Ackad C, Kummerfeld B, Kay J (2011) Firestorm: a brainstorming application for collaborative group work at tabletops. In: ITS ’11: international conference on interactive tabletops and surfaces, pp 162–171
Dietz P, Leigh D (2001) DiamondTouch: a multi-user touch technology. In: UIST ’01: ACM symposium on user interface software and technology. ACM, pp 219–226
Döweling S, Tahiri T, Schmidt B, Nolte A, Khalilbeigi M (2013) Collaborative business process modeling on interactive tabletops. In: ECIS ’13: European conference on information systems. AIS, p Paper 29
Döweling S, Tahiri T, Sowinski P, Schmidt B, Khalilbeigi M (2013) Support for collaborative situation analysis and planning in crisis management teams using interactive tabletops. In: ITS ’13: international conference on interactive tabletops and surfaces, pp 273–282
Hawkey K, Kellar M, Reilly D, Whalen T, Inkpen KM (2005) The proximity factor: impact of distance on co-located collaboration. In: GROUP ’05: ACM international conference on supporting group work. ACM, pp 31–40
Hesselmann T, Flöring S, Schmitt M (2009) Stacked Half-Pie menus: navigating nested menus on interactive tabletops. Paper presented at the ITS ’09: international conference on interactive tabletops and surfaces
Hoegl M, Gemuenden H (2001) Teamwork quality and the success of innovative projects: a theoretical concept and empirical evidence. Organ Sci 12:435–449
Holz C, Baudisch P (2011) Understanding touch. In: CHI ’11: SIGCHI conference on human factors in computing systems, pp 2501–2510
Holz C, Baudisch P (2013) Fiberio: a touchscreen that senses fingerprints. UIST ’13: ACM symposium on user interface software and technology. ACM
Johansson B, Trnka J, Granlund R (2007) The effect of geographical information systems on a collaborative command and control task. In: ISCRAM ’07: international conference on information systems for crisis response and management, pp 191–200
Kunz A, Alavi A, Landgren J, Yantaç AE, Woźniak P, Sárosi Z, Fjeld M (2013) Tangible tabletops for emergency response: an exploratory study. In: MIDI ’13: international conference on multimedia, interaction, design and innovation. ACM, p Article 10
Laugwitz B, Held T, Schrepp M (2008) Construction and evaluation of a user experience questionnaire. In: USAB ’08: symposium of the workgroup human-computer interaction and usability engineering of the Austrian computer society. Springer, pp 63–76
Mackay WE (1999) Is paper safer? The role of paper flight strips in air traffic control. ACM Trans Comput-Hum Interact 6:311–340
Marquardt N, Kiemer J, Ledo D, Boring S, Greenberg S (2011) Designing user-, hand-, and handpart-aware tabletop interactions with the TouchID toolkit. In: ITS ’11: international conference on interactive tabletops and surfaces. ACM, pp 21–30
Novak J, Aggeler M, Schwabe G (2008) Designing large-display workspaces for cooperative travel consultancy. In: CHI ’08: extended abstracts of the SIGCHI conference on human factors in computing systems. ACM, pp 2877–2882
Novak J, Schmidt S (2009) When joy matters: the importance of hedonic stimulation in collocated collaboration with large-displays. In: INTERACT ’09: Proceedings of the IFIP TC13 conference on human-computer interaction. Springer, pp 618–629
Paelke V, Nebe K, Geiger C (2012) Designing multi-modal map-based interfaces for disaster management. In: ACHI ’12: international conference on advances in computer-human interaction, pp 95–100
Qin Y, Liu J, Wu C, Shi Y (2012) uEmergency: a collaborative system for emergency management on very large tabletop. ITS ‘12: international conference on interactive tabletops and surfaces. ACM
Rogers Y, Lim Y-K, Hazlewood WR, Marshall P (2009) Equal opportunities: do shareable interfaces promote more group participation than single users displays? Hum-Comput Interact 24:79–116
Rogers Y, Lindley S (2004) Collaborating around large interactive displays: which way is best to meet? Interact Comput 16:1133–1152
Scott SD, Allavena A, Cerar K, Franck G, Hazen M, Shuter T, Colliver C (2010) Investigating tabletop interfaces to support collaborative decision-making in maritime operations. In: ICCRTS ’10: international command and control research and technology symposium, pp 1–15
Scott SD, Carpendale S, Inkpen KM (2004) Territoriality in collaborative tabletop workspaces. In: CSCW ’04: ACM conference on computer supported cooperative work. ACM, pp 294–303
Venkatesh V, Davis FD (2000) A theoretical extension of the technology acceptance model: four longitudinal field studies. Manage Sci 46:186–204
Wang F, Cao X, Ren X, Irani P (2009) Detecting and leveraging finger orientation for interaction with direct-touch surfaces. In: UIST ’09: ACM symposium on user interface software and technology. ACM, pp 23–32
Yost B, Haciahmetoglu Y, North C (2007) Beyond visual acuity: the perceptual scalability of information visualizations for large displays. In: CHI ’07: SIGCHI conference on human factors in computing systems. ACM, pp 101–110
Zhang H, Yang X-D, Ens B, Liang H-N, Boulanger P, Irani P (2012) See me, see you: a lightweight method for discriminating user touches on tabletop displays. In: CHI ’12: SIGCHI conference on human factors in computing systems, pp 2327–2336
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Döweling, S., Tahiri, T., Riemann, J., Mühlhäuser, M. (2016). Collaborative Interaction with Geospatial Data—A Comparison of Paper Maps, Desktop GIS and Interactive Tabletops. In: Anslow, C., Campos, P., Jorge, J. (eds) Collaboration Meets Interactive Spaces. Springer, Cham. https://doi.org/10.1007/978-3-319-45853-3_14
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