Paolo Bottoni
Nikolay Mirenkov
ABSTRACT
We propose a framework for the construction of collaborative services, based on a technique for coding content generated both by authoritative organisations and by users on interactive supports. In particular, we show how users can interact in an enriched and focused way with paper documents and object labels, both in desktop and mobile settings. We argue that combining immediate access to online information from physical support with creation and retrieval of annotations, while keeping in focus the context of their creation, would create a collaboration space by extending the ways of interacting with documents and objects and the way in which these allow seamless access to both centralised and distributed information.
- Atzori, L., Iera, A., and Morabito G. (2010) The Internet of Things: A survey,. Comput. Netw. 5, 15, 2787--2805. Google Scholar
Digital Library
- Avola, D., Bottoni, P., Laureti, M., Levialdi S., and Panizzi, E. 2010. Managing Groups and Group Annotations in MADCOW, Proc. DNIS 2010, LNCS 5999, Springer, 204--219. Google ScholarDigital Library
- Avola, D., Bottoni, P., Levialdi S., and Panizzi, E. 2010. Annotation Threads in MADCOW 2.0 Proc. HC 2010, 159--166. Google ScholarDigital Library
- Baudisch, P., Becker, T., Rudeck, F. 2010. Lumino: tangible blocks for tabletop computers based on glass fiber bundles. Proc. CHI 2010, pp.1165--1174. Google ScholarDigital Library
- Barneva, R., Brimkov, V., Kanev, K., 2009. Combining Ubiquitous Direction-Sensitive Digitizing with a Multimedia Electronic Dictionary for Enhanced Understanding, Int. J. of Imaging Systems and Technology, 19, 2, 39--49. Google ScholarDigital Library
- Bottoni, P., Civica, R., Levialdi, S., Orso, L., Panizzi, E., and Trinchese, R. 2004. MADCOW: a Multimedia Digital Annotation System, Proc. AVI 2004, ACM Press, 55--62. Google ScholarDigital Library
- Bottoni, P., Kanev, K., and Mirenkov N. 2010. Distributed and context-focused discussion on augmented documents and objects, Proc. COOP 2010, IRSI, 7,2, 298--307.Google Scholar
- Bravo, J., Hervas, R., Fuentes, C, Villarreal, V., Chavira, G., Nava, S., Fontecha, J., Casero, G., Peña, R., and Vergara, M. 2009. From Implicit to Touching Interaction by Identification Technologies: Towards Tagging Context, Proc. HCI International 2009, LNCS 5611, 417--425. Google ScholarDigital Library
- Cohen, M., Gyorbiro, N., and Kanev, K. 2009. Print-based Interfaces for Multimodal Virtual Tours. Cryptosteganographic Affordances for Multimodal Interfaces and Immersive Experiences, Proc. HC'09, 26--32.Google Scholar
- Diaci, J., Bračun, D., Gorkič, A., and Možina, J. 2011. Rapid and Flexible Laser Marking and Engraving of Tilted and Curved Surfaces, Optics and Lasers in Engineering, Vol. 49, No. 2, pp. 195--199.Google ScholarCross Ref
- Dimitrov, K., Kanev, K. and Kimura, S. 2009: Product Recommendations in Mobile Environments, Information Technologies and Control, 7, 3, 10--14.Google Scholar
- Estellés, E. and del Moral E. 2010. Social Bookmarking Tools as Facilitators of Learning and Research Collaborative Processes: The Diigo Case. Interdisciplinary Journal of E-Learning and Learning Objects, 6, 175--191.Google ScholarCross Ref
- Guinard, D., Trifa, V., Karnouskos, S., Spiess, P., and Savio, D. 2010. Interacting with the SOA-Based Internet of Things: Discovery, Query, Selection, and On-Demand Provisioning of Web Services. IEEE Trans. on Serv. Comp., 3, 3, 223--235. Google ScholarDigital Library
- Haslhofer, B., Jochum, W., King, R., Sadilek, C, and Schellner, K. 2009. The LEMO annotation framework: Weaving multimedia annotations with the Web. Int. J. Digit. Libr., 10, 1, 15--32. Google ScholarDigital Library
- Hiyama, A., Saito, S., Tanikawa, T., and Hirose, M., 2007. Design Flexibility in Seamless Coded Pattern for Localization. Proc. VRST 2007, pp. 219--220. Google ScholarDigital Library
- Hutchins, E. 1995. Cognition in the Wild, MIT Press.Google Scholar
- Kanev, K. 2008. Tangible Interfaces for Interactive Multimedia Presentations, International Journal of Mobile Information Systems, Vol. 4, No. 3, pp.183--193. Google ScholarDigital Library
- Kanev, K., Barneva, R., Brimkov, V., and Kaneva, D. 2009--2010. Interactive Printouts Integrating Multilingual Multimedia and Sign Language Electronic Resources, Journal of Educational Technology Systems, Vol. 38, No. 2, pp.123--143.Google ScholarCross Ref
- Kanev, K., Kamiya, N., and Mirenkov, N. 2008. Communicating Mathematical Concepts Through Digitally Enhanced Documents, In Communicating Mathematics in the Digital Era. A. K. Peters Press, pp.157--170.Google Scholar
- Kanev, K., Kato, H., and Koroutchev, K., 2010. Encoding of Surfaces for Global Positioning and Navigation, The Journal of 3D Images, Vol. 24, No. 3, pp. 51--57.Google Scholar
- Kanev, K. and Kimura, S. 2005. Digital Information Carrier, JP, Patent No 3635374.Google Scholar
- Kanev, K. and Kimura, S. 2006. Direct Point-and-Click Functionality for Printed Materials, The Journal of 3D Images, vol. 20, no. 2, pp. 51--59.Google Scholar
- Kanev, K. and Kimura, S. 2010: Digital Information Carrier, US, Patent No 7711139.Google Scholar
- Kanev, K., Kimura, S., and Orr, T. 2009. A Framework for Collaborative Learning in Dynamic Group Environments, Int. Journal of Distance Education Technologies, vol. 7, no. 11, pp.58--77.Google ScholarCross Ref
- Kanev, K. and Mirenkov, N. 2010. Pervasive Carpet Encoding for Active Knowledge Semantic Surfaces. In: Ubiquitous Multimedia Computing, Qing Li and Timothy K. Shih (eds), Chapman & Hall/CRC Press, 197--213.Google Scholar
- Kindberg, T., Barton, J., Morgan, J., Becker, G., Caswell, D., Debaty, P., Gopal, G., Frid, M., Krishnan, V., Morris, H., Schettino, J., Serra, B., and Spasojevic, M. 2002. People, places, things: web presence for the real world. Mob. Netw. Appl., 7, 365--376. Google ScholarDigital Library
- Norman, D. A. 1993. Things that make us smart, AddisonWesley.Google Scholar
- Pavlidis, T., Swartz, J., Wang, Y. P. 1992. Information Encoding with Two-Dimensional Bar Codes, IEEE Computer, 25, 6, 18--28. Google ScholarDigital Library
- Perner, J. 2000. Memory and Theory of Mind. In: E. Tulving and F. I. M. Craik (eds) The Oxford Handbook of Memory, OUP, 297--312.Google Scholar
- Rocha, T. D., Willrich, R., Fileto, R., S. Tazi. 2009. Supporting collaborative learning activities with a digital library and annotations, Proc. 9th WCCE, 349--358 http://www.ifip.org/wcce2009/proceedings/isbn.html.Google ScholarCross Ref
- Signer, B., Norrie, M. C. 2007. PaperPoint: a paper-based presentation and interactive paper prototyping tool. Proc. TEI '07, 57--64, ACM Press. Google ScholarDigital Library
- Sherman, L. M., 2004. 3D Printers Lead Growth of Rapid Prototyping, Plastics Technology.Google Scholar
- Signer, B. and Norrie, M. C. 2009. An Architecture for Open Cross-Media Annotation Services, Proc. WISE 2009, LNCS 5802, pp. 387--400. Google ScholarDigital Library
- Sun, R. 2006. The CLARION cognitive architecture: Extending cognitive modeling to social simulation. In: Ron Sun (ed.), Cognition and Multi-Agent Interaction, CUP, pp.1--26.Google Scholar
- Walters, P., Huson, D., Parraman, C. E., and Stanić, M. 2009. 3D Printing in Colour: Technical Evaluation and Creative Applications, In Impact 6 International Multi-Disciplinary Printmaking Conference.Google Scholar
Index Terms
- Constructing collaborative services through augmented documents and objects
Recommendations
Collaborative Augmented Reality: Multi-user Interaction in Urban Simulation
IVIC '09: Proceedings of the 1st International Visual Informatics Conference on Visual Informatics: Bridging Research and PracticeAugmented reality (AR) environment allows user or multi-user to interact with 2D and 3D data. AR simply can provide a collaborative interactive AR environment for urban simulation, where users can interact naturally and intuitively. AR collaboration ...
Studying collaborative object positioning in distributed augmented realities
MUM '17: Proceedings of the 16th International Conference on Mobile and Ubiquitous MultimediaAugmented Reality (AR) displays have been suggested as shared-space technology to support remote collaboration, e.g., in design and building tasks. But with AR displays, the shared space typically consists of only the virtual work objects (e.g., design ...
“Let's see your search-tool!”—collaborative use of tailored artifacts in groupware
GROUP '99: Proceedings of the 1999 ACM International Conference on Supporting Group WorkGroupware applications should be tailorable to fit the requirements of dynamically evolving and differentiated fields of application. To encourage individual and collaborative tailoring activities, applications should be tailorable on different levels ...
Comments