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Contents
Technologies
This is a list of academic work discussing technologies that could be used for data physicalization, although they have not been specifically presented as such. It is currently very incomplete, but Contribute:you can help expand it.
Also see the enabling technology category in the list of physical visualizations and related artefacts.
2015
- Yao L., Wang, W., Ou, J, Wang, G., Cheng, C-Y, Steiner, H., Ishii, H. bioLogic: Natto Cells as Nanoactuators for Shape Changing Interfaces. In Proc. CHI (2015).
2014
- Benko, H., Wilson, A. D., Zannier, F., and Benko, H. Dyadic projected spatial augmented reality. In Proc. UIST (2014), 645–655.
- Niiyama, R., Yao, L., and Ishii, H. Weight and volume changing device with liquid metal transfer. In Proc. TEI (2014), 49–52.
- Olberding, S., Wessely, M., and Steimle, J. Printscreen: fabricating highly customizable thin-film touch-displays. In Proc. UIST (2014), 281–290.
- Seah, S., Drinkwater, B., Carter, T., Malkin, R., and Subramanian, S. Dexterous ultrasonic levitation of millimeter-sized objects in air. UFFC 61, 7 (2014), 1233–1236.
- Seah, S. A., Martinez Plasencia, D., Bennett, P. D., Karnik, A., Otrocol, V. S., Knibbe, J., Cockburn, A., and Subramanian, S. SensaBubble: A chrono-sensory mid-air display of sight and smell. In Proc. CHI (2014), 2863–2872.
2013
- Follmer, S., Leithinger, D., Olwal, A., Hogge, A., and Ishii, H. inFORM: Dynamic physical affordances and constraints through shape and object actuation. In Proc. UIST (2013), 417–426.
- Romanishin, J., Gilpin, K., and Rus, D. M-blocks: Momentum-driven, magnetic modular robots. In Proc. IROS, IEEE/RSJ (2013), 4288–4295.
- Roudaut, A., Karnik, A., Lo ̈chtefeld, M., and Subramanian, S. Morphees: Toward high “shape resolution” in self-actuated flexible mobile devices. In Proc. CHI (2013), 593–602.
- Steimle, J., Jordt, A., and Maes, P. Flexpad: highly flexible bending interactions for projected handheld displays. In Proc. CHI (2013), 237–246.
- Yao, L., Niiyama, R., Ou, J., Follmer, S., Della Silva, C., and Ishii, H. PneUI: Pneumatically actuated soft composite materials for shape changing interfaces. In Proc. UIST (2013), 13–22.
2012
- Alexander, J., Lucero, A., and Subramanian, S. Tilt Displays: Designing display surfaces with multi-axis tilting and actuation. In Mobile HCI (2012), 161–170.
- Follmer, S., Leithinger, D., Olwal, A., Cheng, N., and Ishii, H. Jamming user interfaces: Programmable particle stiffness and sensing for malleable and shape-changing devices. In Proc. UIST (2012), 519–528.
- Ishii, H., Lakatos, D., Bonanni, L., and Labrune, J.-B. Radical Atoms: Beyond Tangible Bits, toward transformable materials. Interactions 19, 1 (2012), 38–51.
- Kildal, J. Kooboh: Variable tangible properties in a handheld Haptic-Illusion box. In Proc. EuroHaptics’12. Springer, 2012, 191–194.
- Rasmussen, M. K., Pedersen, E. W., Petersen, M. G., and Hornbæk, K. Shape-changing interfaces: a review of the design space and open research questions. In Proc. CHI (2012), 735–744.
2011
- Gilpin, K., Koyanagi, K., and Rus, D. Making self-disassembling objects with multiple components in the Robot Pebbles system. In ICRA (2011), 3614–3621.
- Lai, C.-H., Niinimaki, M., Tahiroğlu, K., Kildal, J. and Ahmaniemi, T. Perceived Physicality in Audio-Enhanced Force Input. Proc. ICMI'11 ACM, (2011), 287-294.
- Lee, J., Post, R., and Ishii, H. ZeroN: Mid-air tangible interaction enabled by computer controlled magnetic levitation. In Proc. UIST (2011), 327–336.
2010
- Kildal, J. 3D-Press: Haptic Illusion of Compliance when Pressing on a Rigid Surface. Proc. ICMI'10 ACM, (2010), 8pp.
2009
- Hiller, J., and Lipson, H. Design and analysis of digital materials for physical 3d voxel printing. Rapid Prototyping Journal 15, 2 (2009), 137–149.
2006
- Schweikardt, E., and Gross, M. D. roBlocks: A robotic construction kit for mathematics and science education. In Proc. ICMI (2006), 72–75.
2004
- Poupyrev, I., Nashida, T., Maruyama, S., Rekimoto, J., and Yamaji, Y. Lumen: interactive visual and shape display for calm computing. In SIGGRAPH Emerging Technologies (2004), 17.
2002
- Murata, S., Yoshida, E., Kamimura, A., Kurokawa, H., Tomita, K., and Kokaji, S. M-TRAN: Self-reconfigurable modular robotic system. TMECH 7, 4 (2002), 431–441.
- Piper, B., Ratti, C., and Ishii, H. Illuminating clay: A 3-D tangible interface for landscape analysis. In Proc. CHI (2002), 355–362.
1999
- Underkoffler, J., and Ishii, H. Urp: A luminous-tangible workbench for urban planning and design. In Proc. CHI (1999), 386–393.