Validation Of Splitvector Encoding And Stereoscopy For Quantitative Visualization Of Quantum Physics Data In Virtual Environments
2015 IEEE Virtual Reality (VR)(2015)
摘要
We designed and evaluated SplitVector, a new vector field display approach to help scientists perform new discrimination tasks on scientific data shown in virtual environments (VEs). Our empirical study compared the SplitVector approach with three other approaches of direct linear representation, log, and text display common in information-rich VEs or IRVEs. Our results suggest the following: (1) SplitVectors improve the accuracy by about 10 times compared to the linear mapping and by 4 times to log in discrimination tasks; (2) SplitVectors lead to no significant differences from the IRVE text display approach, yet reduce the clutter; and (3) SplitVector improved task performance in both mono and stereoscopy conditions.
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关键词
SplitVector encoding validation,stereoscopy,quantitative visualization,quantum physics data,vector field display approach,discrimination tasks,scientific data,virtual environments,VE,direct linear representation,logs,information-rich VE,accuracy improvement,IRVE text display approach,clutter reduction,task performance improvement,monoscopic conditions,stereoscopy conditions
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