Suitable Parameters for Tacton Design in Touch Screen Interaction
T. Stein, M. Seeger, B. Borys, and L. Schmidt. Proceedings of the International Conference Interfaces and Human Computer Interaction 2017: part of the Multi Conference on Computer Science and Information Systems 2017: (Lisabon 2017), page 77–85. (2017)
Abstract
Touch screens are increasingly used in mobile devices such as smartphones or tablet computers, as well as in
stationary systems like ticket vending machines or information terminals. Using touch screens, it is possible
to perform complex interactions in a small area while remaining flexible at low cost. Compared to
mechanical keyboards, touch screens show the disadvantage, that haptic feedback and familiar feeling
provided by mechanical keys, transmitted via the sense of touch, is lost. Typing on a touch screen interface is
more difficult and may result in a lower input speed (Hoggan et al. 2008). To address this problem,
artificially generated vibrations provide tactile feedback in numerous devices. In addition to that, using the
haptic sense to convey information is a promising approach to improve human-machine interaction
(El Saddik 2007), in particular when the visual or auditory channel is overloaded or not available (Brewster
and Brown 2004a).
Proceedings of the International Conference Interfaces and Human Computer Interaction 2017: part of the Multi Conference on Computer Science and Information Systems 2017: (Lisabon 2017)
year
2017
pages
77–85
series
IADIS Computer Science and Information Systems Series
%0 Conference Paper
%1 Stein.2017
%A Stein, Tobias
%A Seeger, Martin
%A Borys, Bernd-Burkhard
%A Schmidt, Ludger
%B Proceedings of the International Conference Interfaces and Human Computer Interaction 2017: part of the Multi Conference on Computer Science and Information Systems 2017: (Lisabon 2017)
%D 2017
%E Blashki, Katherine
%K mmspup myown
%P 77–85
%T Suitable Parameters for Tacton Design in Touch Screen Interaction
%X Touch screens are increasingly used in mobile devices such as smartphones or tablet computers, as well as in
stationary systems like ticket vending machines or information terminals. Using touch screens, it is possible
to perform complex interactions in a small area while remaining flexible at low cost. Compared to
mechanical keyboards, touch screens show the disadvantage, that haptic feedback and familiar feeling
provided by mechanical keys, transmitted via the sense of touch, is lost. Typing on a touch screen interface is
more difficult and may result in a lower input speed (Hoggan et al. 2008). To address this problem,
artificially generated vibrations provide tactile feedback in numerous devices. In addition to that, using the
haptic sense to convey information is a promising approach to improve human-machine interaction
(El Saddik 2007), in particular when the visual or auditory channel is overloaded or not available (Brewster
and Brown 2004a).
@inproceedings{Stein.2017,
abstract = {Touch screens are increasingly used in mobile devices such as smartphones or tablet computers, as well as in
stationary systems like ticket vending machines or information terminals. Using touch screens, it is possible
to perform complex interactions in a small area while remaining flexible at low cost. Compared to
mechanical keyboards, touch screens show the disadvantage, that haptic feedback and familiar feeling
provided by mechanical keys, transmitted via the sense of touch, is lost. Typing on a touch screen interface is
more difficult and may result in a lower input speed (Hoggan et al. 2008). To address this problem,
artificially generated vibrations provide tactile feedback in numerous devices. In addition to that, using the
haptic sense to convey information is a promising approach to improve human-machine interaction
(El Saddik 2007), in particular when the visual or auditory channel is overloaded or not available (Brewster
and Brown 2004a).},
added-at = {2017-08-08T13:12:44.000+0200},
author = {Stein, Tobias and Seeger, Martin and Borys, Bernd-Burkhard and Schmidt, Ludger},
biburl = {https://www.bibsonomy.org/bibtex/2652a6492cbd751e6c86915d1d583bfd1/b.borys},
booktitle = {Proceedings of the International Conference Interfaces and Human Computer Interaction 2017: part of the Multi Conference on Computer Science and Information Systems 2017: (Lisabon 2017)},
editor = {Blashki, Katherine},
interhash = {955a399db96cd207e2710dff4c04b265},
intrahash = {652a6492cbd751e6c86915d1d583bfd1},
keywords = {mmspup myown},
pages = {77–85},
series = {IADIS Computer Science and Information Systems Series},
timestamp = {2017-08-08T13:14:30.000+0200},
title = {Suitable Parameters for Tacton Design in Touch Screen Interaction},
year = 2017
}