Open AccessFluid integration of rotation and translation
Author(s) -
Russell Kruger,
Sheelagh Carpendale,
Stacey D. Scott,
Anthony Tang
Publication year - 2005
Publication title -
citeseer x (the pennsylvania state university)
Language(s) - English
Resource type - Book series
ISBN - 1-58113-998-5
DOI - 10.1145/1054972.1055055
Subject(s) - rotation (mathematics) , orientation (vector space) , translation (biology) , mechanism (biology) , computer science , comprehension , kinesiology , control (management) , point (geometry) , human–computer interaction , artificial intelligence , mathematics , physics , geometry , physiology , biochemistry , chemistry , quantum mechanics , biology , messenger rna , gene , programming language
Previous research has shown that rotation and orientation of items plays three major roles during collaboration: comprehension, coordination and communication. Based on these roles of orientation and advice from kinesiology research, we have designed the Rotate'N Translate (RNT) interaction mechanism, which provides integrated control of rotation and translation using only a single touch-point for input. We present an empirical evaluation comparing RNT to a common rotation mechanism that separates control of rotation and translation. Results of this study indicate RNT is more efficient than the separate mechanism and better supports the comprehension, coordination and communication roles of orientation.
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