@inproceedings{RosiliusWilhelmSeitzetal., author = {Rosilius, Maximilian and Wilhelm, Markus and Seitz, Philipp and Von Eitzen, Ingo and Wirsing, Benedikt and Rabenstein, Markus and Decker, Steffen and Br{\"a}utigam, Volker}, title = {Equalization of the Visibility Loss between AR and Real Stimuli Sizes}, series = {2022 IEEE International Symposium on Mixed and Augmented Reality Adjunct (ISMAR-Adjunct)}, booktitle = {2022 IEEE International Symposium on Mixed and Augmented Reality Adjunct (ISMAR-Adjunct)}, publisher = {IEEE}, doi = {https://doi.org/10.1109/ISMAR-Adjunct57072.2022.00178}, pages = {821 -- 826}, abstract = {The results of the empirical study based on an AR Landolt C vision were examined to compare real and virtual visibility as a function of stimulus size on an HMD (e.g. MS HoloLens 2). A counterbalanced within-subject-design study with n = 32 probands was conducted. The results show on one hand a visibility loss between real and immersive systems by the same size of representation. On the other hand, a transfer function can be derived to ensure comparable visibility between the systems. This transfer function can be used to compensate for the visibility loss as a design guideline for immersive applications. In approximation, the Weber-Fechner's relation can be applied on AR visibility versus size of stimuli.}, language = {en} } @inproceedings{RosiliusWirsingvonEitzenetal., author = {Rosilius, Maximilian and Wirsing, Benedikt and von Eitzen, Ingo and Wilhelm, Markus and Schmitt, Jan and Engelmann, Bastian and Br{\"a}utigam, Volker}, title = {Evaluation of Visual Requirements and Software-Design for Immersive Visibility in Industrial Applications}, series = {2021 IEEE International Symposium on Mixed and Augmented Reality Adjunct (ISMAR-Adjunct)}, booktitle = {2021 IEEE International Symposium on Mixed and Augmented Reality Adjunct (ISMAR-Adjunct)}, pages = {234 -- 239}, abstract = {Currently, many sources predict increasing use of AR technology in the industrial environment. The task of immersive productive assistance systems is to provide information contextually to the industrial user. Therefore, it is essential to explore the factors and effects that influence the visibility and the corresponding quality of this information. Caused by the technical limitations of additive display technology and application conditions, this new approach has evaluated the immersive visibility of Landolt Rings in various greyscales against ambient illuminance levels on different industrial-like surfaces, coupled with and without a white virtual background. For this purpose, an empirical study in a within-subjects-design with full factorial experimental design (n=23) was conducted on Microsoft HoloLens 2 hardware. The mean values of the main effects indicate that visibility is significantly affected by ambient illuminance (best results at lower level), greyscale (best results at middle level) and virtual background (best results with background). In contrast, the choice of surface is shown to have no statistically significant effect on visibility, however it affects the response time. Additionally, cross-interactions of variables were analyzed and lead to a design recommendation for immersive industrial applications.}, language = {en} } @article{MaximilianSpiertzWirsingetal., author = {Maximilian, Rosilius and Spiertz, Martin and Wirsing, Benedikt and Geuen, Manuel and Br{\"a}utigam, Volker and Ludwig, Bernd}, title = {Impact of Industrial Noise on Speech Interaction Performance and User Acceptance when Using the MS HoloLens 2}, series = {Multimodal Technologies and Interaction}, volume = {8}, journal = {Multimodal Technologies and Interaction}, doi = {10.3390/mti8020008}, language = {en} }