direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Inhalt des Dokuments

Dr. Johannes Mathias Arend

Lupe

Contact

Room: EN 150/151
Phone: +49 30 314 70757
Mail:
ResearchGate: www.researchgate.net/profile/Johannes-Arend
Consultation hours: appointment via mail

Fields of Research

Virtual Acoustics
Spatial Audio
Binaural Technology
Auditory Perception
Audio Technology

Publications

A

Arend, Johannes M. and Stade, Philipp and Pörschmann, Christoph (2017). Binaural reproduction of self-generated sound in virtual acoustic environments. Proc. of Meetings on Acoustics 30(015007), 1–14.


Arend, Johannes M. and Stade, Philipp and Pörschmann, Christoph (2017). A System for Binaural Reproduction of Self-Generated Sound in VAEs. Proc. of the 43rd DAGA, Kiel, Germany 271–274.


Arend, Johannes M. and Neidhardt, Annika and Pörschmann, Christoph (2017). Measurement and Evaluation of a Near-Field HRTF Set. VDT Magazin 2017(1), 52–55.


Arend, Johannes M. and Neidhardt, Annika and Pörschmann, Christoph (2016). Measurement and Perceptual Evaluation of a Spherical Near-Field HRTF Set. Proc. of the 29th Tonmeistertagung - VDT International Convention, Cologne, Germany 356–363.


Arend, Johannes M. and Pörschmann, Christoph (2016). Audio Watermarking of Binaural Room Impulse Responses. Proc. of the AES International Conference on Headphone Technology, Aalborg, Denmark 1–8.



Arend, Johannes M. and Amengual Garí, Sebastià V. and Schissler, Carl and Klein, Florian and Robinson, Philip W. (2021). Six-Degrees-of-Freedom Parametric Spatial Audio Based on One Monaural Room Impulse Response. J. Audio Eng. Soc. 69(7/8), 557–575.


Arend, Johannes M. and Brinkmann, Fabian and Pörschmann, Christoph (2021). Assessing Spherical Harmonics Interpolation of Time-Aligned Head-Related Transfer Functions. J. Audio Eng. Soc. 69(1/2), 104–117.


Arend, Johannes M. and Liesefeld, Heinrich R. and Pörschmann, Christoph (2021). On the influence of non-individual binaural cues and the impact of level normalization on auditory distance estimation of nearby sound sources. Acta Acust. 5(10), 1–21.


Arend, Johannes M. and Pörschmann, Christoph (2019). Spatial upsampling of sparse head-related transfer function sets by directional equalization - Influence of the spherical sampling scheme. Proc. of the 23rd International Congress on Acoustics (ICA), Aachen, Germany 2643–2650.


Arend, Johannes M. and Lübeck, Tim and Pörschmann, Christoph (2019). A Reactive Virtual Acoustic Environment for Interactive Immersive Audio. Proc. of the AES International Conference on Immersive and Interactive Audio (IIA), York, UK 1–10.


Arend, Johannes M. and Pörschmann, Christoph (2019). Synthesis of Near-Field HRTFs by Directional Equalization of Far-Field Datasets. Proc. of the 45th DAGA, Rostock, Germany 1454–1457.


Arend*, Johannes M. and Ramírez*, Melissa and Liesefeld, Heinrich R. and Pörschmann, Christoph (2021). Do near-field cues enhance the plausibility of non-individual binaural rendering in a dynamic multimodal virtual acoustic scene?. Acta Acust. 5(55), 1–14, (*equal contributions).


Arend*, Johannes M. and Lübeck*, Tim and Pörschmann*, Christoph (2021). Efficient binaural rendering of spherical microphone array data by linear filtering. EURASIP J. Audio Speech Music Process. 2021(37), 1–11, (*equal contributions).


B

Bau, David and Arend, Johannes M. and Pörschmann, Christoph (2022). Estimation of the Optimal Spherical Harmonics Order for the Interpolation of Head-Related Transfer Functions Sampled on Sparse Irregular Grids. Front. Sig. Proc. 2(884541), 1–13.


Bau, David and Lübeck, Tim and Arend, Johannes M. and Dziwis, Damian T. and Pörschmann, Christoph (2021). Simplifying head-related transfer function measurements: A system for use in regular rooms based on free head movements. Proc. of the International Conference on Immersive and 3D Audio (I3DA), Bologna, Italy 1–6.


Bernschütz, B. and Giner, A. Vázquez and Pörschmann, C. and Arend, Johannes M. (2014). Binaural Reproduction of Plane Waves With Reduced Modal Order. Acta Acust. united Ac. 100(5), 972–983.


D

Dziwis, Damian T. and Lübeck, Tim and Arend, Johannes M. and Pörschmann, Christoph (2019). Development of a 7th Order Spherical Microphone Array for Spatial Audio Recording. Proc. of the 45th DAGA, Rostock, Germany 883–885.


Dziwis, Damian T. and Zimmermann, Simon and Lübeck, Tim and Arend, Johannes M. and Bau, David and Pörschmann, Christoph (2021). Machine Learning-Based Room Classification for Selecting Binaural Reverberation in Augmented Reality Applications. Proc. of the International Conference on Immersive and 3D Audio (I3DA), Bologna, Italy 1–8.


Dziwis, Damian T. and Arend, Johannes M. and Lübeck, Tim and Pörschmann, Christoph (2021). IVES - Interactive Virtual Environment System: A Modular Toolkit for 3D Audiovisual Composition in Max. Proc. of the 18th Sound and Music Computing Conference (SMC), Torino, Italy 330–337.


E

Ebelt, Mike D. and Arend, Johannes M. and Pörschmann, Christoph (2016). Influences of the Floor Reflection on Auditory Distance Perception. Proc. of the 42nd DAGA, Aachen, Germany 1467–1469.


K

Klein, Florian and Amengual Garí, Sebastià V. and Arend, Johannes M. and Robinson, Philip W. (2021). Towards determining thresholds for room divergence: A pilot study on detection thresholds. Proc. of the International Conference on Immersive and 3D Audio (I3DA), Bologna, Italy 1–7.


L

Lübeck, Tim and Arend, Johannes M. and Pörschmann, Christoph (2019). HMD-based Virtual Environments for Localization Experiments. Proc. of the 45th DAGA, Rostock, Germany 1116–1119.


Lübeck, Tim and Arend, Johannes M. and Pörschmann, Christoph (2018). A Real-Time Application for Sound Source Localization Inside a Spherical Microphone Array. Proc. of the 44th DAGA, Munich, Germany 319–322.


Lübeck, Tim and Arend, Johannes M. and Pörschmann, Christoph (2022). Binaural reproduction of dummy head and spherical microphone array data—A perceptual study on the minimum required spatial resolution. J. Acoust. Soc. Am. 151(1), 467–483.


Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe

Diese Seite verwendet Matomo für anonymisierte Webanalysen. Mehr Informationen und Opt-Out-Möglichkeiten unter Datenschutz.