![]() ![]() ![]() of the 2001 workshop on Perceptive user interfaces, ACM (2001).In the first half of the year, Harmonychain carried out a capital increase of NOK 110 million gross. ![]() Visual panel: virtual mouse, keyboard and 3d controller with an ordinary piece of paper. on Mobile systems, applications, and services, ACM (2014). Ubiquitous keyboard for small mobile devices: harnessing multipath fading for fine-grained keystroke localization. The effects of age, sex and time of testing on skin conductance activity. 6th International Conference on, IEEE (2007), 12-17. In Polymers and Adhesives in Microelectronics and Photonics, 2007. Printed touch sensor for interactive packaging and display. Unander, T., Nilsson, H.-E., and Oelmann, B.In Proceedings of the 2014 conference on Designing interactive systems, ACM (2014), 483-492. Shorter, M., Rogers, J., and McGhee, J.In Proceedings of the 25th annual ACM symposium on User interface software and technology, ACM (2012), 579-588. Midas: fabricating custom capacitive touch sensors to prototype interactive objects. Savage, V., Zhang, X., and Hartmann, B.In CHI'03 extended abstracts on Human factors in comp. Typing in thin air: the canesta projection keyboard-a new method of interaction with electronic devices. ![]() In Proceedings of the 27th annual ACM symposium on User interface software and technology, ACM (2014), 281-290. Printscreen: fabricating highly customizable thin-film touch-displays. Olberding, S., Wessely, M., and Steimle, J.In Proceedings of the 26th annual ACM symposium on User interface software and technology, ACM (2013), 245-254. Olberding, S., Gong, N.-W., Tiab, J., Paradiso, J.The relationship between autonomic indicators of psychological stress: Heart rate and skin conductance. In Proceedings of the 2013 ACM international joint conference on Pervasive and ubiquitous computing, ACM (2013), 363-372. Instant inkjet circuits: lab-based inkjet printing to support rapid prototyping of ubicomp devices. In Proceedings of the 2014 conference on Designing interactive systems, ACM (2014), 195-198. Holman, D., Fellion, N., and Vertegaal, R.In Proceedings of the 32nd annual ACM conference on Human factors in computing systems, ACM (2014), 1743-1746. Circuit stickers: peel-and-stick construction of interactive electronic prototypes. Hodges, S., Villar, N., Chen, N., Chugh, T., Qi, J., Nowacka, D., and Kawahara, Y.In Proceedings of the 32nd annual ACM conference on Human factors in computing systems, ACM (2014), 1407-1410. Printsense: a versatile sensing technique to support multimodal flexible surface interaction. Gong, N.-W., Steimle, J., Olberding, S., Hodges, S., Gillian, N.body coupled fingerring: wireless wearable keyboard. In Consumer Electronics (ICCE), 2013 IEEE International Conf.e on, IEEE (2013). Design and implementation of a new thin cost effective ac hum based touch sensing keyboard. In Science and Technology for Humanity (TIC-STH), 2009 IEEE Toronto International Conference, IEEE (2009), 100-105. Analysis of text entry performance metrics. We also observed touch detection rates of up to 154 touches per minute. We evaluated the touch sensor using keypads with 10, 15 and 20 touch points and achieved 99.6%, 93.5%, and 91% touch detection accuracy, respectively. The finger closes the circuit when in contact with the touch point and the sensor uses a polarity-switching technique to cancel out the effect of the unknown skin resistance. We address this through a resistive touch sensor that exploits the inherently high resistance of printed traces to create multiple detectable touch points. Specifically, it should not require assembly of multiple layers and it should support multiple touch points without needing separate connections to a microcontroller for each touch point. The challenge lies in creating a reliable and customizable touch circuit that is easy to produce. Paper-based touch circuits are a convenient medium for exploring custom touch sensors that can be attached to numerous objects in our environment. While 3D printing and open-source electronics platforms have led to enormous creativity in creating smart objects, the means for user interaction with such objects are often limited and require remote interaction through a smartphone app. We present a technique for creating multi-key conductive ink touch user interfaces that can be printed on paper in a single pass. ![]()
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