@inproceedings{iber_auditory_2019, address = {Nottingham, UNited Kingdom}, title = {Auditory {Augmented} {Reality} for {Cyber} {Physical} {Production} {Systems}}, isbn = {978-1-4503-7297-8}, doi = {10.1145/3356590.3356600}}, abstract = {We describe a proof-of-concept approach on the sonification of estimated operation states of 3D printing processes. The results of this study form the basis for the development of an “intelligent” noise protection headphone as part of Cyber Physical Production Systems, which provides auditorily augmented information to machine operators and enables radio communication between them. Further application areas are implementations in control rooms (equipped with multichannel loudspeaker systems) and utilization for training purposes. The focus of our research lies on situation-specific acoustic processing of conditioned machine sounds and operation related data with high information content, considering the often highly auditorily influenced working knowledge of skilled workers. As a proof-of-concept the data stream of error probability estimations regarding partly manipulated 3D printing processes was mapped to three sonification models, giving evidence about momentary operation states. The neural network applied indicates a high accuracy ({\textgreater}93\%) concerning error estimation distinguishing between normal and manipulated operation states. None of the manipulated states could be identified by listening. An auditory augmentation, respectively sonification of these error estimations provides a considerable benefit to process monitoring.}, booktitle = {{AudioMostly} ({AM}'19)}, publisher = {ACM New York, NY, USA}, author = {Iber, Michael and Lechner, Patrik and Jandl, Christian and Mader, Manuel and Reichmann, Michael}, year = {2019}, note = {Projekt: IML}, keywords = {Auditory Display, FH SP Data Analytics \& Visual Computing, Forschungsgruppe Media Computing, Forschungsgruppe Media Creation, Immersive Media (AR, VR, 360°), Institut für Creative Media Technologies, Smart Manufacturing, Vortrag, best, best-lbiber, peer-reviewed, ⚠️ Invalid DOI}, } @inproceedings{rottermanner_design_2020, address = {Atlanta, USA}, title = {Design and {Evaluation} of a {Tool} to {Support} {Air} {Traffic} {Control} with {2D} and {3D} {Visualizations}}, isbn = {978-1-72815-608-8}, url = {https://ieeexplore.ieee.org/document/9089606}, doi = {10/ghppx4}, abstract = {Air traffic control officers (ATCOs) are specialized workers responsible to monitor and guide airplanes in their assigned airspace. Such a task is highly visual and mainly supported by 2D visualizations. In this paper, we designed and assessed an application for visualizing air traffic in both orthographic (2D) and perspective (3D) views. A user study was then performed to compare these two types of representations in terms of situation awareness, workload, performance, and user acceptance. Results show that the 3D view yielded both higher situation awareness and less workload than the 2D view condition. However, such a performance does not match the opinion of the ATCOs about the 3D representation.}, publisher = {IEEE Computer Society}, author = {Rottermanner, Gernot and Oliveira, Victor A. De J. and Kreiger, Mylene and Graf, Philipp and Rokitansky, Carl-Herbert and Eschbacher, Kurt and Settgast, Volker and Grantz, Volker and Iber, Michael and Lechner, Patrik and Judmaier, Peter and Wagner, Markus}, year = {2020}, note = {Projekt: VAST}, keywords = {Digital Media, Eintrag überprüfen, FH SP Data Analytics \& Visual Computing, Forschungsgruppe Media Computing, Green OA, Human-Computer Interaction, Institut für Creative Media Technologies, Institutional Access, Visual Computing, Vortrag, Wiss. Beitrag, best-grottermanner, peer-reviewed}, } @article{iber_auditory_2020, title = {Auditory augmented process monitoring for cyber physical production systems}, issn = {1617-4909, 1617-4917}, url = {http://link.springer.com/10.1007/s00779-020-01394-3}, doi = {10/ghz24q}, language = {en}, urldate = {2020-03-30}, journal = {Personal and Ubiquitous Computing}, author = {Iber, Michael and Lechner, Patrik and Jandl, Christian and Mader, Manuel and Reichmann, Michael}, month = mar, year = {2020}, note = {Projekt: IML}, keywords = {Auditory Display, Eintrag überprüfen, FH SP Data Analytics \& Visual Computing, Forschungsgruppe Media Computing, Forschungsgruppe Media Creation, Green OA, Immersive Media (AR, VR, 360°), Institut für Creative Media Technologies, Open Access, Smart Manufacturing, Wiss. Beitrag, best, best-lbiber, peer-reviewed}, } @inproceedings{lechner_room_2020, address = {Vienna (Austria)}, title = {Room {Impulse} {Response} {Estimation} {Using} {Signed} {Distance} {Functions}}, language = {ENG}, booktitle = {Proceedings of the 23rd {International} {Conference} on {Digital} {Audio} {Effects} ({DAFx}-20)}, author = {Lechner, Patrik}, month = sep, year = {2020}, keywords = {Digital Media, Eintrag überprüfen, Forschungsgruppe Media Creation, Institut für Creative Media Technologies, Machine Learning, Open Access, Vortrag, Wiss. Beitrag, best-plechner, peer-reviewed}, } @misc{rubisch_interaction_2013, address = {Karlsruhe, Deutschland}, title = {Interaction {Design} für {Generative} {Musikprozesse}}, author = {Rubisch, Julian and Lechner, Patrik}, month = jun, year = {2013}, keywords = {Department Technologie, Institut für Creative Media Technologies, Publikationstyp Präsentation}, } @inproceedings{husinsky_rhythmus-radar_2015, address = {Stuttgart}, title = {Das {Rhythmus}-{Radar}}, isbn = {978-3-11-044333-2}, abstract = {Das Rhythmus-Radar ist ein interaktives und digitales Multi-User Musikinstrument im Kontext von Museen und Ausstellungen. Es wurde mit dem Ziel ent wickelt Kindergruppen einen intuitiven und spielerischen Zugang zum Thema Rhythmus zu geben. Kernelement der audiovisuellen Installation ist ein runder Tisch, auf dem kleine Scheiben abgelegt werden können. Jede Scheibe repräsentiert einen ind ividuellen Klang. Auf den Tisch wird ein Zeiger projiziert, der sich, angelehnt an alte Radargeräte, kontinuierlich um die Achse des Tischmittelpunktes dreht und die Tischoberfläche auf abgelegte Scheibe n hin abtastet. Durch die kontinuierliche Bewegung des Zeigers ergibt sich so eine zyklische, wiederho lte Abfolge von Klängen mit frei gestaltbaren rhythmischen Mustern. Durch eine große Auswahl an v orgegebenen Klängen und die Möglichkeit Klänge selbst aufzunehmen und zu bearbeiten, lässt sich durch Variierung der Anzahl und Positionen der Scheiben eine große Anzahl rhythmisch prägnanter Kl angfolgen in Echtzeit generieren und verändern. Besonderer Wert wurde bei der Installation auf eine einfache und leicht verständliche Handhabung des Instruments gelegt. Durch seine Multi-User-Tauglich keit ist die Installation für Besuchergruppen gut geeignet. Neben dem spielerischen Zugang findet so auch der pädagogische Aspekt eines gemeinsamen Musizierens seine Berücksichtigung.}, booktitle = {Mensch und {Computer} 2015 {Workshopband}}, publisher = {Oldenbourg Wissenschaftsverlag}, author = {Husinsky, Matthias and Lechner, Patrik}, year = {2015}, pages = {339--344}, }