Fachgebiet Audiokommunikation

Dr. Fabian Brinkmann

 

 

 

Fabian Brinkmann

Wiss. Mitarbeiter_in

fabian.brinkmann@tu-berlin.de

+49 30 314-29094

Einrichtung Fachgebiet Audiokommunikation
Sekretariat EN 8
Gebäude E-N
Raum 150/151

Wissenschaftlicher Werdegang

Seit 2022Leitung der Gruppe 'Binaural processing and perception' am Fachgebiet Audiokommunikation
2019Praktikum bei Microsoft Research, Redmont, WA, USA
2019Promotion zum Dr. rer. nat. zum Thema 'Binaural processing for the evaluation of acoustical environments'
Seit 2011Wissenschaftlicher Mitarbeiter am Fachgebiet Audiokommunikation
2011Abschluss zum Magister Artium an der TU Berlin zum Thema 'Individual headphone compensation for binaural synthesis'

Forschungsinteressen

Binaurltechnik
Raumakustische Simulation
Auditive Wahrnehmung
Virtuelle und Augmentierte Realität

Lehraktivitäten

  • Virtual Acoustic Reality: Projekttutorium für Systemidentifikation, Binauraltechnik und Raumsimulation (seit 2019)

  • Virtual Acoustic Reality: Vorlesung (seit 2021)

  • Einführung in die digitale Signalverarbeitung (EDS): Tutorium (seit 2021)

  • Audiotechnik II: Tutorium in digitaler Audiotechnik (2009 bis 2011)

  • Lautsprecherlabor: Messung und digitale Signalverarbeitung für Lautsprecher (2010 bis 2015)

  • The Appassionate Projects: Performance-Analyse musikalischer Tonaufnahmen (seit 2010)

Open Data/Software Publikationen

  • pyfar - python packages for acoustics research - A frame work of python packages for acoustic signal acquisition, processing, analysis.

  • FABIAN HRTF data base - A compilation of acoustically measured and numerically simulated head-related transfer functions, headphone transfer functions, and 3D-head-and-torso meshes of the head and torso simulator FABIAN

  • HUTUBS HRTF data base - A compilation of acoustically measured and numerically simulated head-related transfer functions, headphone transfer functions, and 3D-head-and-torso meshes of 96 subjects.

  • Mesh2HRTF - A software for numerical calculation of head-related transfer functions

  • HRTF-Mesh-Grading - A software for preparing 3D head and torso meshes for efficient numerical simulations,e.g., using Mesh2HRTF

  • PIRATE - 3D printable in-ear microphones for binaural measurements.

  • AKtools - An open software toolbox for signal acquisition, processing, and inspection in acoustics

  • WhisPER - An open source software for conduction listening test

  • Musical Instruments - A data base with recordings, directivities, and features of classical musical instruments

Publikationen

Buchkapitel und Monographien

  • Brinkmann, F., & Pike, C. (2023). Binauraltechnik. In S. Weinzierl (Ed.), Handbuch der Audiotechnik (2nd ed., pp. 1–23). Springer. doi: 10.1007/978-3-662-60357-4_27-2
  • Brinkmann, F., & Weinzierl, S. (2022). Audio Quality Assessment for Virtual Reality. In M. Geronazzo & S. Serafin (Eds.), Sonic Interactions in Virtual Environments (pp. 145–178). Springer. doi: 10.1007/978-3-031-04021-4
  • Brinkmann, F. (2019). Binaural processing for the evaluation of acoustical environments. Doctoral Thesis, Technical University Berlin, Germany. doi: 10.14279/depositonce-8510
  • Loesch, H. von, & Brinkmann, F. (2015). ‚Feurig` oder ‚majestätisch`? – Tempo und Deutung im ersten Satz von Beethovens Hammerklaviersonate. In M. Tomaszewski & M. Chrenkoff (Eds.), Beethoven 6 – Studien und Interpretationen. Akademia Muzyczna w Krakowie.
  • von Loesch, H., & Brinkmann, F. (2014b). Tempogestaltung im Kopfsatz von op. 95: Eine exemplarische Studie zur Interpretationsgeschichte von Beethovens Streichquartetten. In F. Geiger & M. Sichardt (Eds.), Beethovens Kammermusik. Das Handbuch (Das Beethoven Handbuch 3) (pp. 445–467). Laaber.
  • Loesch, H. von, & Brinkmann, F. (2011). Das Tempo in Beethovens Appassionata von Frederic Lamond (1927) bis András Schiff (2006). In H. von Loesch & S. Weinzierl (Eds.), Gemessene Interpretation. Computergestützte Aufführungsanalyse im Kreuzverhör der Disziplinen (Vol. 4, pp. 83–100). Schott.
  • Brinkmann, F. (2011). Individual headphone compensation for binaural synthesis. Master’s Thesis. Technische Universität Berlin, Germany.

Standards

  • AES Standards Committee. (2022). AES69-2022: AES standard for file exchange—Spatial acoustic data file format. Audio Engineering Society, Inc.
  • AES Standards Committee. (2020). AES69-2020: AES standard for file exchange—Spatial acoustic data file format. Audio Engineering Society, Inc.

Offene Daten & Software

  • Lindau, A., Schultz, F., Horn, M., Brinkmann, F., Erbes, V., Fuß, A., Maempel, H.-J., & Weinzier, S. (2021). Raumakustische Messungen in sechs Aufführungsräumen: Konzerthaus / Kleiner Saal (Berlin), Jesus-Christus-Kirche (Berlin), Kloster Eberbach / Basilika (Eltville am Rhein), Renaissance-Theater (Berlin), Komische Oper (Berlin), Gewandhaus / Großer Saal (Leipzig). doi: 10.14279/depositonce-11947
  • Aspöck, L., Brinkmann, F., Ackerman, D., Weinzierl, S., & Vorländer, M. (2020, April). BRAS - Benchmark for Room Acoustical Simulation. doi: 10.14279/depositonce-6726.3
  • Brinkmann, F., Lindau, A., Weinzierl, S., Geissler, G., van de Par, S., Müller-Trapet, M., Opdam, R., & Vorländer, M. (2020, February). The FABIAN head-related transfer function data base. doi: 10.14279/depositonce-5718.4
  • Brinkmann, F., Dinakaran, M., Pelzer, R., Wohlgemuth, J. J., Seipel, F., Voss, D., Grosche, P., & Weinzierl, S. (2019, May). The HUTUBS head-related transfer function (HRTF) database. doi: 10.14279/depositonce-8487
  • Denk, F., Brinkmann, F., Stirnemann, A., & Kollmeier, B. (2019). The PIRATE: An anthropometric earPlug with exchangeable microphones for Individual Relaiable Acquisition of Transfer functions at the Ear canal entrance. Fortschritte Der Akustik – DAGA 2019, 635–638. doi: 10.5281/zenodo.2574395
  • Kokabi, O., Brinkmann, F., & Weinzierl, S. (2018c, October). Assessment of speech perception based on binaural room impulse responses. Data publication. doi: 10.14279/depositonce-6725.2
  • Brinkmann, F., & von Loesch, H. (2018). Tempo data from 50 performances of Beethovens Appassionata (Op. 57). doi: 10.14279/depositonce-7002
  • Weinzierl, S., Vorländer, M., Behler, G., Brinkmann, F., von Coler, H., Detzner, E., Krämer, J., Lindau, A., Pollow, M., Schulz, F., & Shabtai, N. R. (2017, June). A Database of Anechoic Microphone Array Measurements of Musical Instruments. doi: 10.14279/depositonce-5861.2
  • Brinkmann, F., & Weinzierl, S. (2016).AKtools – An open toolbox for acoustic signal acquisition, processing, and inspection.

Beiträge mit Peer Review

  • Ackermann, D., Brinkmann, F, and Weinzierl, S. (2024) A Database with Directivities of Musical Instruments. J. Audio Eng. Soc., 72(3), 170-179, doi: 10.17743/jaes.2022.0128
  • Kreuzer, W., Pollack, K., Brinkmann, F., and Majdak, P. (2024) NumCalc: An open-source BEM code for solving acoustic scattering problems. Engineering Analysis with Boundary Elements, 161, 157-178, doi: 10.1016/j.enganabound.2024.01.008
  • Arend, J. M., Pörschmann, C, Weinzierl, S. & Brinkmann, F. (2023) Magnitude-Corrected and Time-Aligned Interpolation of Head-Releated Transfer Functions. IEEE/ACM Trans. Audio, Speech, Language Processing, 31, 3738-3799, doi: 10.1109/TASLP.2023.3313908
  • Jüterbock, T., Brinkmann, F., Gamper, H., Raghuvanshi, N., & Weinzierl, S. (2023) Spatio-Temporal Windowing for Encoding Perceptually Salient Early Reflections in Parametric Spatial Audio Rendering. J. Audio Eng. Soc., 71(10), 664-678, doi:10.17743/jaes.2022.0099
  • Ackermann, D., Domann, J., Brinkmann, F., Arend, J. M., Schneider, M., Pörschmann, C., & Weinzier, S. (2023). Recordings of a Loudspeaker Orchestra with Multichannel Microphone Arrays for the Evaluation of Spatial Audio Methods. J. Audio Eng. Soc., 71(1/2), 62–73. doi: 10.17743/jaes.2022.0059
  • Majdak, P., Zotter, F., Brinkmann, F., De Muynke, J., Mihocic, M., & Noisternig, M. (2022). Spatially Oriented Format for Acoustics 2.1: Introduction and Recent Advances. J. Audio Eng. Soc., 70(7/8), 565–584. doi: 10.17743/jaes.2022.0026
  • Brinkmann, F., Aspöck, L., Ackermann, D., Opdam, R., Vorländer, M., & Weinzierl, S. (2021). A benchmark for room acoustical simulation. Concept and database. Applied Acoustics, 176, 107867. doi: 10.1016/j.apacoust.2020.107867
  • Arend, J. M., Brinkmann, F., & Pörschmann, C. (2021). Assessing Spherical Harmonics Interpolation of Time-Aligned Head-Related Transfer Functions. J. Audio Eng. Soc., 69(1/2), 104–117. doi: 10.17743/jaes.2020.0070
  • Ackermann, D., Brinkmann, F., Zotter, F., Kob, M., & Weinzierl, S. (2021). Comparative evaluation of interpolation methods for the directivity of musical instruments. EURASIP Journal on Audio, Speech, and Music Processing, 2021(1), 36. doi: 10.1186/s13636-021-00223-6
  • Pollack, K., Brinkmann, F., Majdak, P., & Kreuzer, W. (2021). Von Fotos zu personalisierter räumlicher Audiowiedergabe. E & i Elektrotechnik und Informationstechnik, 138, 250-255. doi: 10.1007/s00502-021-00891-4
  • Pelzer, R., Dinakaran, M., Brinkmann, F., Lepa, S., Grosche, P., & Weinzierl, S. (2020). Head-related transfer function recommendation based on perceptual similarities and anthropometric features. J. Acoust. Soc. Am., 148(6), 3809–3817. doi: 10.1121/10.0002884
  • Ackermann, D., Fiedler, F., Brinkmann, F., Schneider, M., & Weinzierl, S. (2020). On the Acoustic Qualities of Dynamic Pseudo-Binaural Recordings. J. Audio Eng. Soc., 68(6), 418–427. doi: 10.17743/jaes.2020.0036
  • Pörschmann, Christoph, Arend, J. M., & Brinkmann, F. (2020). Correction to “Directional Equalization of Sparse Head-Related Transfer Function Sets for Spatial Upsampling.” IEEE/ACM Transactions on Audio, Speech, and Language Processing, 28, 2194–2194. doi: 10.1109/TASLP.2020.3010608
  • Pörschmann, C., Arend, J., & Brinkmann, F. (2019a). Directional equalization of sparse head-related transfer function sets for spatial upsampling. IEEE/ACM Transactions on Audio, Speech, and Language Processing, 27(6), 1060–1071. doi: 10.1109/TASLP.2019.2908057
  • Brinkmann, F., Aspöck, L., Ackermann, D., Lepa, S., Vorländer, M., & Weinzierl, S. (2019). A round robin on room acoustical simulation and auralization. J. Acoust. Soc. Am., 145(4), 2746–2760. doi: 10.1121/1.5096178
  • Brinkmann, F., Dinakaran, M., Pelzer, R., Grosche, P., Voss, D., & Weinzierl, S. (2019). A cross-evaluated database of measured and simulated HRTFs including 3D head meshes, anthropometric features, and headphone impulse responses. J. Audio Eng. Soc., 67(9), 705–718. doi: 10.17743/jaes.2019.0024
  • Ackermann, D., Böhm, C., Brinkmann, F., & Weinzierl, S. (2019). The acoustical effect of musicians’ movements during musical performances. Acta Acust. United Ac., 105(2), 356–367. doi: 10.3813/AAA.919319
  • Kokabi, O., Brinkmann, F., & Weinzierl, S. (2019). Prediction of speech intelligibility using pseudo-binaural room impulse responses. J. Acoust. Soc. Am., 145(4), EL329–EL333. doi: 10.1121/1.5099169
  • Kokabi, O., Brinkmann, F., & Weinzierl, S. (2018). Segmentation of binaural room impulse responses for speech intelligibility prediction. J. Acoust. Soc. Am., 144(5), 2793–2800. doi: 10.1121/1.5078598
  • Dinakaran, M., Brinkmann, F., Harder, S., Pelzer, R., Grosche, P., Paulsen, R. R., & Weinzierl, S. (2018). Perceptually motivated analysis of numerically simulated head-related transfer functions generated by various 3D surface scanning systems. IEEE Int. Conf. Acoustics, Speech and Signal Processing (ICASSP), 551–555. doi: 10.1109/ICASSP.2018.8461789
  • Brinkmann, F., Lindau, A., & Weinzierl, S. (2017). On the authenticity of individual dynamic binaural synthesis. J. Acoust. Soc. Am., 142(4), 1784–1795. doi: 10.1121/1.5005606
  • Brinkmann, F., Lindau, A., Weinzierl, S., Par, S. van de, Müller-Trapet, M., Opdam, R., & Vorländer, M. (2017). A High Resolution and Full-Spherical Head-Related Transfer Function Database for Different Head-Above-Torso Orientations. J. Audio Eng. Soc., 65(10), 841–848. doi: 10.17743/jaes.2017.0033
  • Ben-Hur, Z., Brinkmann, F., Sheaffer, J., Weinzierl, S., & Rafaely, B. (2017). Spectral equalization in binaural signals represented by order-truncated spherical harmonics. J. Acoust. Soc. Am., 141(6), 4087–4096. doi: 10.1121/1.4983652
  • Brinkmann, F., Roden, R., Lindau, A., & Weinzierl, S. (2015). Audibility and interpolation of head-above-torso orientation in binaural technology. IEEE Journal of Selected Topics in Signal Processing, 9(5), 931–942. doi: 10.1109/jstsp.2015.2414905
  • Brinkmann, F., Lindau, A., Vrhovnik, M., & Weinzierl, S. (2014). Assessing the authenticity of individual dynamic binaural synthesis. Proc. of the EAA Joint Symposium on Auralization and Ambisonics, 62–68. doi: 10.14279/depositonce-11
  • Lindau, A., Erbes, V., Lepa, S., Maempel, H.-J., Brinkmann, F., & Weinzierl, S. (2014). A Spatial Audio Quality Inventory (SAQI). Acta Acust. United Ac., 100(5), 984–994. doi: 10.3813/AAA.918778
  • Lindau, A., & Brinkmann, F. (2012). Perceptual evaluation of headphone compensation in binaural synthesis based on non-individual recordings. J. Audio Eng. Soc., 60(1/2), 54–62.
  • von Loesch, H., Werner, S., & Brinkmann, F. (2012). Welches Tempo – welches Werk? Schubert: Perspektiven, 12(1), 33–46.
  • Loesch, H. von, & Brinkmann, F. (2012a). Das Tempo in Beethovens Appassionata von Frederic Lamond (1927) bis András Schiff (2006) [In russisch]. Musykalnaja Akademija, 2, 88–96

Konferenzbeiträge

  • Brinkmann, F., Smith, D., Anderst, W. J., Amengual Garí, S. V., Alon, D. L., & Weinzier, S. (2023, September). Towards Modeling Dynamic Head-Above Torso Orientations in Head-Related Transfer Functions. Forum Acusticum, Torino, Italy.
  • Arend, J. M., Pörschmann, Christoph, Weinzierl, S., & Brinkmann, F. (2023, March). Magnitude Corrected and Time-Aligned HRTF Interpolation: Effect of Interpolation and Alignment Method. Fortschritte Der Akustik – DAGA 2023, Hamburg, Germany, 1098–1001.
  • Arend, J. M., Pörschmann, C., Weinzierl, S., & Brinkmann, F. (2023). Magnitude-Corrected and Time-Aligned Interpolation of Head-Related Transfer Functions (pre-print). doi: 10.48550/arXiv.2303.09966
  • Mihocic, M., Majdak, P., Zotter, F., Brinkmann, F., De Muynke, J., & Noisternig, M. (2023, September). Recent Advances in the Spatially Oriented Format for Acoustics (SOFA, AES69). Forum Acusticum, Torino, Italy.
  • Kreuzer, W., Brinkmann, F., Pollack, K., & Majdak, P. (2022, March). Mesh2HRTF/NumCalc: Ein quelloffenes Paket zur Berechnung von HRTFs und akustischer Wellenausbreitung in 3D. Fortschritte Der Akustik – DAGA 2022, Stuttgart, Germany, 891–894.
  • Kreuzer, W., Pollack, K., Majdak, P., & Brinkmann, F. (2022, May). Mesh2HRTF / NumCalc: An Open-Source Project to Calculate HRTFs and wave scattering in 3D. Euroregio BNAM 2022, Aalborg, Denmark.
  • Palm, T., Koch, S., Brinkmann, F., & Alexa, M. (2021, March). Curvature-adaptive mesh grading for numerical approximation of head-related transfer functions. Fortschritte Der Akustik – DAGA 2021, Vienna, Austria, 1111–1114.
  • Brinkmann, F., Gamper, H., Raghuvanshi, N., & Tashev, I. (2020). Towards encoding perceptually salient early reflections for parametric spatial audio rendering. 148th AES Convention, Vienna, Austria, Paper 10380.
  • Pörschmann, C., Arend, J. M., & Brinkmann, F. (2019). Spatial upsampling of individual sparse head-related transfer function sets by directional equalization. Int. Congress on Acoustics (ICA), Aachen, Germany, 4848–4855.
  • Brinkmann, F., & Weinzierl, S. (2018). Comparison of head-related transfer functions pre-processing techniques for spherical harmonics decomposition. AES Int. Conf. on Audio for Virtual and Augmented Reality (AVAR), Redmond, WA, USA.
  • Brinkmann, F., Erbes, V., & Weinzierl, S. (2018). Extending the closed form image source model for source directivity. Fortschritte Der Akustik – DAGA 2018, Munich, Germany, 1298–1301.
  • Erbes, V., & Brinkmann, F. (2018, March). Extending the closed form image source model for source directivity (Digital appendix). doi: 10.14279/depositonce-6724
  • Aspöck, L., Brinkmann, F., Ackerman, D., Weinzierl, S., & Vorländer, M. (2018). Eine Datenbank zur Validierung von akustischen Simulationen. Fortschritte Der Akustik – DAGA 2018, Munich, Germany, 1337.
  • Kokabi, O., Brinkmann, F., & Weinzierl, S. (2018a). Automatische Segmentierung binauraler Raumimpulsantworten für die Modellierung von Sprachverständlichkeit. Fortschritte Der Akustik – DAGA 2018, 509–512.
  • Bögelein, S., Brinkmann, F., Ackerman, D., & Weinzierl, S. (2018). Localization cues of a spherical head model. Fortschritte Der Akustik – DAGA 2018, Munich, Germany, 347–350.
  • Fiedler, F., Ackerman, D., Brinkmann, F., Schneider, M., & Weinzierl, S. (2017). Entwicklung und Evaluation eines Mikrofonarrays für die Aufnahme von räumlichen Schallfeldern nach dem Motion-Tracked Binaural (MTB) Verfahren. Fortschritte Der Akustik – DAGA 2017, Kiel, Germany, 1115–1117.
  • Brinkmann, F., & Weinzierl, S. (2017). AKtools – An Open Software Toolbox for Signal Acquisition, Processing, and Inspection in Acoustics. 142nd AES Convention, Berlin, Germany, Convention e-Brief 309.
  • Brinkmann, F., & Weinzierl, S. (2017a). AKtools—Eine offene Software zur Erhebung, Verarbeitung und Inspektion akustischer Signale. Fortschritte Der Akustik – DAGA 2017, Kiel, Germany, 210–213.
  • Hold, C., Seipel, F., Brinkmann, F., Lykartsis, A., & Weinzierl, S. (2017). Eigen-Images of Head-Related Transfer Functions. 143rd AES Convention, New, York, NY, USA, Convention Paper 9891.
  • Dinakaran, M., Grosche, P., Brinkmann, F., & Weinzierl, S. (2016, June). Extraction of anthropometric measures from 3D-meshes for the individualization of head-related transfer functions. 140th AES Convention, Paris, France, Convention Paper 9579.
  • Schlenstedt, G., Brinkmann, F., Pelzer, S., & Weinzierl, S. (2016). Perzeptive Evaluation transauraler Binauralsynthese unter Berücksichtigung des Wiedergaberaums. Fortschritte Der Akustik – DAGA 2016, Aachen, Germany, 561–564.
  • Brinkmann, F., Lindau, A., Müller-Trapet, M., Vorländer, M., & Weinzierl, S. (2015). Cross-validation of measured and modeld head-related transfer functions. Fortschritte Der Akustik – DAGA 2015, Nürnberg, Germany, 1118–1121.
  • Fallahi, M., Brinkmann, F., & Weinzierl, S. (2015). Simulation and analysis of measurement techniques for the fast acquisition of head-related transfer functions. Fortschritte Der Akustik – DAGA 2015, Nürnberg, Germany, 1107–1110.
  • Boren, B., Geronazzo, M., Brinkmann, F., & Choueiri, E. (2015). Coloration metrics for headphone equalization. 21st Int. Conf. Auditory Display (ICAD-2015), Graz, Austria, 29–34.
  • Fuß, A., Brinkmann, F., Jürgensohn, T., & Weinzierl, S. (2015). Ein vollsphärisches Multikanalmesssystem zur schnellen Erfassung räumlich hochaufgelöster, individueller kopfbezogener Übertragungsfunktionen. Fortschritte Der Akustik – DAGA 2015, Nürnberg, Germany, 1114–1117.
  • Brinkmann, F., Roden, R., Lindau, A., & Weinzierl, S. (2014). Audibility of head-above-torso orientation in head-related transfer functions. Forum Acusticum, Krakow, Poland.
  • Roden, R., Brinkmann, F., Lindau, A., & Weinzierl, S. (2014). Auflösung und Interpolation von unterschiedlichen Kopf-über-Torso-Orientierungen in kopfbezogenen Übertragungsfunktionen. Fortschritte Der Akustik – DAGA 2014, Oldenburg, Germany, 568–569.
  • Lindau, A., Brinkmann, F., & Weinzierl, S. (2014). Sensory Profiling of Individual and Non-individual Dynamic Binaural Synthesis Using the Spatial Audio Quality Inventory. Forum Acusticum, Krakow, Poland.
  • Lindau, A., Erbes, V., Lepa, S., Maempel, H.-J., Brinkmann, F., & Weinzierl, S. (2014). Eine Fokusgruppe für die Entwicklung eines Vokabulars zur sensorischen Beurteilung virtueller akustischer Umgebungen. Fortschritte Der Akustik – DAGA 2014, Oldenburg, Germany, 553–554.
  • von Loesch, H., & Brinkmann, F. (2014a). ‚Diese Sonate ist als reine Virtuosen-Sonate zu beachten` – Das Tempo in Beethovens Klavier-Sonate op. 2/3 von Josef Hofmann (1929) bis Lang Lang (2010). Vom Klang Zur Schrift – von Der Schrift Zum Klang. Beiträge Des Seminars in Münster 2012 (EPTA-Dokumentation 2012).
  • Brinkmann, F., Lindau, A., Weinzierl, S., Geissler, G., & van de Par, S. (2013). A high resolution head-related transfer function database including different orientations of head above the torso. AIA-DAGA 2013, International Conference on Acoustics, Merano, Italy, 596–599.
  • von Loesch, H., & Brinkmann, F. (2013b). Tempomessungen in Klaviersonaten Ludwig van Beethovens; Tempo Measurements in Piano Sonatas by Ludwig van Beethoven. doi: 10.5281/zenodo.8081731, 10.5281/zenodo.8081745
  • von Loesch, H., & Brinkmann, F. (2013a). Sravnitel’nye izmerenija tempa v interpretacijah bethovenskih sonat i drugih proizvedenijah (Vergleichende Tempomessungen in Interpretationen von Sonaten Beethovens und anderen Werken; in russ. Sprache). Quantitative Methods in Art Studies. Proceedings of International Conference in Memory of German A. Golitsyn, 138–143.
  • Loesch, H. von, & Brinkmann, F. (2012b). Die Tempogestaltung in Artur Schnabels Appassionata-Einspielung im Kontext zeitgenössischer Interpretationen. In M. Tomaszewski & M. Chrenkoff (Eds.), Beethoven 5 – Studien und Interpretationen (pp. 215–224). Akademia
  • Lindau, A., & Brinkmann, F. (2010). Perceptual evaluation of individual headphone compensation in binaural synthesis based on non-individual recordings. 3rd ISCA/DEGA Tutorial and Research Workshop on Perceptual Quality of Systems, 137–142.
  • Brinkmann, F., & Lindau, A. (2010). On the effect of individual headphone compensation in binaural synthesis. Fortschritte Der Akustik – DAGA 2010, Berlin, Germany, 1055–1056.