Pervasive, Intelligent Materiality for Smart Interactivity
Resumen
El desarrollo de R&D ha permitido que sus productos puedan ser “inteligentes”, esto significa que son capaces de entender cómo reaccionar al comportamiento de los usuarios y en el contexto que los usen. Además de contribuir a su rendimiento basado en la estructura firme de estos materiales, también posee grandes exigencias relativas al entendimiento de su comportamiento y las intenciones deseadas por los agentes humanos y permitir el grado de inteligencia y las interacciones con los materiales que están equipados. Este artículo investiga como de penetrante, la inteligencia del material puede ser usada para hacer que las interactividades de las personas con los productos sean muchas más efectivas, con el fin de desinar las Interactividad Inteligentes. Basándonos en una revisión de las aplicaciones de Materiales Inteligentes, este artículo propone una acción-estímulo en el sistema mediante los puentes de las acciones de los posibles usuarios con las propiedades de los materiales inteligentes.
Citas
Addington, M. And Schodek, D., (2005). Smart materials and technologies. Architecture and Urbanism 5 (3), pp. 8-13.
Atzori, L., Iera, A. And Morabito, G., (2010). The internet of things: A survey. Computer networks, 54(15), pp. 2787-2805.
Banks, H.T., Smith, R.C. And Wang, Y., (1996). Smart material structures: modeling, estimation and control. Wiley New York.
Bar-Cohen, Y. (2000). Electroactive polymers as artificial muscles: Capabilities, potentials and challenges. In Robotics 2000 (pp. 188-196).
Berglin, L., (2005). Spookies: Combining smart materials and information technology in an interactive toy, Proceedings of the 2005 conference on Interaction design and children 2005, ACM, pp. 17-23.
Chang, K., Liu, S., Chu, H., Hsu, J.Y., Chen, C., Lin, T., Chen, C. And Huang, P., (2006). The diet-aware dining table: Observing dietary behaviors over a tabletop surface. Pervasive computing. Springer, pp. 366-382.
Coelho, M., Ishii, H. And Maes, P., (2008). Surflex: a programmable surface for the design of tangible interfaces, CHI'08 extended abstracts on Human factors in computing systems 2008, ACM, pp. 3429-3434.
Culshaw, B. And De Vries, M., (1997). Smart structures and materials. Optical Engineering, 36(2), pp. 616-616.
Ducatel, K., Bogdanowicz, M., Scapolo, F., Leijten, J. And Burgelman, J., (2001). Scenarios for ambient intelligence in 2010. Office for official publications of the European Communities.
Ferrara, M., & Bengisu, M. (2014). Materials that Change Color. Springer, Cham.
Gandhi, M.V. And Thompson, B.S., (1992). Smart materials and structures. Springer. Holmquist, L.E., Mattern, F., Schiele, B., Alahuhta, P., Beigl, M. And
Gellersen, H., (2001). Smart-its friends: A technique for users to easily establish connections between smart artefacts, Ubicomp 2001: Ubiquitous Computing 2001, Springer, pp. 116-122. Jacob, R.,
Girouard, A., Hirshfield, L., Horn, M., Shaer, O., Solovey, E. And Zigelbaum, J., (2008). Reality-based interaction: a framework for post-WIMP interfaces, 2008, ACM, pp. 201-210.
Jung, H. And Stolterman, E., (2011). Form and materiality in interaction design: a new approach to HCI, 2011, ACM, pp. 399-408.
Kaihou, T. And Wakita, A., (2013). Electronic origami with the color-changing function, Proceedings of the second international workshop on Smart material interfaces: another step to a material future 2013, ACM, pp. 7-12.
Klack, L., Möllering, C., Ziefle, M. And Schmitz-Rode, T., (2011). Future care floor: A sensitive floor for movement monitoring and fall detection in home environments. Wireless Mobile Communication and Healthcare. Springer, pp. 211-218.
Klooster, T., Boeing, N., Davis, S. And Seeger, A., (2009). Smart surfaces: and their application in architecture and design. Birkhäuser Basel. Krippendorff, K., (2005). The semantic turn: A new foundation for design. crc Press.
Kuniavsky, M., (2010). Smart Things: Ubiquitous Computing User Experience Design: Ubiquitous Computing User Experience Design. Elsevier.
Kuswandi, B., Wicaksono, Y., Abdullah, A., Heng, L.Y. And Ahmad, M., (2011). Smart packaging: sensors for monitoring of food quality and safety. Sensing and Instrumentation for Food Quality and Safety, 5(3-4), pp. 137-146.
Lozada, J., Roselier, S., Periquet, F., Boutillon, X. And Hafez, M., (2010) Magneto-rheological technology for human-machine interaction.
Micocci, M., Spinelli, G., (2018). Metaphors and Analogies through Smart Materials to mitigate age-related differences in the understanding of technologies. Journal of Design Research (forthcoming).
Micocci, M., Spinelli, G. & Ajovalasit, M. (2016). Actualizing agency through smart products: Smart materials and metaphors in support of the ageing population. SOCIOTECHNICAL: 711.
Minuto, A. And Nijholt, A., (2012). Growing grass: a smart material interactive display, design and construction history, Proceedings of the 1st workshop on Smart Material Interfaces: A Material Step to the Future 2012, ACM, pp. 7. Minuto, A., Vyas, D., Poelman, W. And
Nijholt, A., (2012). Smart material interfaces: A vision. Intelligent Technologies for Interactive Entertainment. Springer, pp. 57-62.
Norman, D.A., (1988). The psychology of everyday things. Basic books.
Norman, D.A., (1998). The invisible computer: why good products can fail, the personal computer is so complex, and information appliances are the solution. MIT press.
Papaefthimiou, S., (2010). Chromogenic technologies: Towards the realization of smart electrochromic glazing for energy-saving applications in buildings. Advances in Building Energy Research, 4(1), pp. 77-126.
Peters, S., (2011). Material revolution: sustainable and multi-purpose materials for design and architecture.
Walter de Gruyter. Qi, J. And Buechley, L., (2012). Animating paper using shape memory alloys, Proceedings of the SIGCHI Conference on Human Factors in Computing Systems 2012, ACM, pp. 749-752.
Rammert, W., (2008). Where the action is: distributed agency between humans, machines, and programs. Paradoxes of Interactivity, pp. 62-91.
Righetto, M., Crampton Smith, G. And Tabor, P., (2012). Aura: Wearable Devices for Nonverbal Communication between Expectant Parents. Studies in Material Thinking, 7.
Ritter, A., (2007). Smart materials: in architecture, interior architecture and design.
Springer. Saul, G., Xu, C. And Gross, M.D., (2010). Interactive paper devices: end-user design & fabrication, Proceedings of the fourth international conference on Tangible, embedded, and embodied interaction 2010, ACM, pp. 205-212.
Srinivasan, A.V. And Mcfarland, D.M., (2001). Smart structures: analysis and design. Cambridge university press.
Sterling, B., Wild, L. And Lunenfeld, P., (2005). Shaping things. MIT press Cambridge, MA.
Streitz, N.A., Rocker, C., Prante, T., Van Alphen, D., Stenzel, R. And Magerkurth, C., (2005). Designing smart artifacts for smart environments. Computer, 38(3), pp. 41-49.
Vyas, D., Poelman, W., Nijholt, A., & De Bruijn, A. (2012, May). Smart material interfaces: a new form of physical interaction. In CHI'12 Extended Abstracts on Human Factors in Computing Systems (pp. 1721-1726). ACM.
Weiser, M., (1991). The computer for the 21st-century. New York: Sci American Inc.
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