2022

Towards Understanding Diminished Reality

Yi Fei Cheng, Hang Yin, Yukang Yan, Jan Gugenheimer, David Lindlbauer.
Published at ACM CHI 2022
Show Details PDF DOI
@inproceedings {Cheng22, 
 author = {Cheng, Yi Fei and Yin, Hang and Yan, Yukang and Gugenheimer, Jan and Lindlbauer, David}, 
 title = {Towards Understanding Diminished Reality}, 
 year = {2022}, 
 isbn = {9781450391573}, 
 publisher = {Association for Computing Machinery}, 
 address = {New York, NY, USA}, 
 url = {https://doi.org/10.1145/3491102.3517452}, 
 doi = {10.1145/3491102.3517452}, 
 articleno = {549}, 
 numpages = {16}, 
 keywords = {Empirical study, Diminished Reality, Mediated Reality}, 
 location = {New Orleans, LA, USA}, 
 series = {CHI '22} 
 }

User Preference for Navigation Instructions in Mixed Reality

Jaewook Lee, Fanjie Jin, Younsoo Kim, David Lindlbauer.
Published at IEEE VR 2022
Show Details PDF DOI Full video
@inproceedings {Lee2022, 
 author = {Lee, Jaewook and Jin, Fanjie and Kim, Younsoo and Lindlbauer, David}, 
 title = {User Preference for Navigation Instructions in Mixed Reality}, 
 year = {2022}, 
 publisher = {IEEE}, 
 keywords = {Mixed Reality, Navigation, Adaptive user interfaces}, 
 location = {Virtual Event, New Zealand}, 
 series = {IEEE VR '2022} 
 }

2021

SemanticAdapt: Optimization-based Adaptation of Mixed Reality Layouts Leveraging Virtual-Physical Semantic Connections

Yi Fei Cheng, Yukang Yan, Xin Yi, Yuanchun Shi, David Lindlbauer.
Published at UIST 2021
Show Details PDF Full video
@inproceedings { Cheng2021, 
 author = {Cheng, Yi Fei and Yan, Yukang and Yi, Xin and Shi, Yuanchun, and Lindlbauer, David}, 
 title = {SemanticAdapt: Optimization-based Adaptation of Mixed Reality Layouts Leveraging Virtual-Physical Semantic Connections}, 
 year = {2021}, 
 isbn = {9781450375146}, 
 publisher = {Association for Computing Machinery}, 
 address = {New York, NY, USA}, 
 url = {https://doi.org/10.1145/3472749.3474750}, 
 doi = {10.1145/3472749.3474750}, 
 keywords = {Mixed Reality, Computational interaction, Adaptive user interfaces}, 
 location = {Virtual Event, USA}, 
 series = {UIST '2021} 
 }

Smartphone-based tapping frequency as a surrogate for perceived fatigue. An in-the-wild feasibility study in multiple sclerosis patients

Liliana Barrios, Pietro Oldrati, Marc Hilty, David Lindlbauer, Christian Holz, Andreas Lutterotti.
Published at IMWUT 2021
Show Details PDF DOI
@article{Barrios2021, 
 author = {Barrios, Liliana and Oldrati, Pietro and Hilty, Marc and Lindlbauer, David and Holz, Christian and Lutterotti, Andreas}, 
 title = {Smartphone-Based Tapping Frequency as a Surrogate for Perceived Fatigue: An in-the-Wild Feasibility Study in Multiple Sclerosis Patients}, 
 year = {2021}, 
 issue_date = {Sept 2021}, 
 publisher = {Association for Computing Machinery}, 
 address = {New York, NY, USA}, 
 volume = {5}, 
 number = {3}, 
 url = {https://doi.org/10.1145/3478098}, doi = {10.1145/3478098}, 
 journal = {Proc. ACM Interact. Mob. Wearable Ubiquitous Technol.}, 
 month = sep, 
 articleno = {89}, 
 numpages = {30}, 
 keywords = {fatigue, impairment, remote-monitoring, fatigability, multiple sclerosis, smartphones, mobile health, objective-measurement} 
 }

2020

Optimal Control for Electromagnetic Haptic Guidance Systems

Thomas Langerak, Juan José Zárate, Velko Vechev, David Lindlbauer, Daniele Panozzo, Otmar Hilliges.
Published at UIST 2020
Show Details PDF DOI Blog Full video
@inproceedings{Langerak20b, 
 author = {Langerak, Thomas and Zarate, Juan Jose and Vechev, Velko and Lindlbauer, David and Panozzo, Daniele and Hilliges, Otmar}, 
 title = {Optimal Control for Electromagnetic Haptic Guidance Systems}, 
 year = {2020}, 
 isbn = {9781450375146}, 
 publisher = {Association for Computing Machinery}, 
 address = {New York, NY, USA}, 
 url = {https://doi.org/10.1145/3379337.3415593}, doi = {10.1145/3379337.3415593}, 
 pages = {951–965}, 
 numpages = {15}, 
 keywords = {haptic devices, optimal control, computational interaction}, 
 location = {Virtual Event, USA}, 
 series = {UIST '20} 
 }

Omni: Volumetric Sensing and Actuation of Passive Magnetic Tools for Dynamic Haptic Feedback

Thomas Langerak, Juan José Zárate, David Lindlbauer, Christian Holz, Otmar Hilliges.
Published at UIST 2020
Show Details PDF DOI Blog Full video
@inproceedings { Langerack20a, 
 author = {Langerak, Thomas and Zarate, Juan Jose and Vechev, Velko and Lindlbauer, David and Panozzo, Daniele and Hilliges, Otmar}, 
 title = {Optimal Control for Electromagnetic Haptic Guidance Systems}, 
 year = {2020}, 
 isbn = {9781450375146}, 
 publisher = {Association for Computing Machinery}, 
 address = {New York, NY, USA}, 
 url = {https://doi.org/10.1145/3379337.3415593}, 
 doi = {10.1145/3379337.3415593}, 
 pages = {951–965}, 
 numpages = {15}, 
 keywords = {optimal control, haptic devices, computational interaction}, 
 location = {Virtual Event, USA}, 
 series = {UIST '20} 
 }