Techniker
Fachbereich Hören
Psychophysics and Audiology

Tel. +43 1 51581-2515
Email: michael.mihocic(at)oeaw.ac.at

Wissenschaftliche IDs:
Scopus
Google Scholar
Researchgate

Bildung

Michael Mihocic hat zwei Studiengänge an der FH Technikum Wien abgeschlossen: Elektronik mit Schwerpunkten auf Audio- und Videotechnik und Computer- und Systemtechnik, sowie Innovations- und Technologiemanagement. Er ist Autor einer Diplomarbeit: "Ortung akustischer Quellen mittels eines Vielkanal-Messsystems" im Jahr 2005 unter der Betreuung von Holger Waubke, sowie einer Master's Thesis: "ExpSuite: Open Source-Framework zur Durchführung psychoakustischer Experimente und akustischer Messungen" im Jahr 2014 unter der Betreuung von Piotr Majdak.

Derzeitige Forschung

Michael Mihocic ist ein Mitglied der Gruppe Psychoakustik und Experimentelle Audiology. Er entwickelt (audiologische) Software (ExpSuite: Software für Psychoakustische Tests, Subjects) und führt psychoakustische Experimente sowie akustische Messungen durch. Er betreut weiters den technischen Bereich der Laboreinrichtungen am Institut für Schallforschung. Zudem ist er Teil des Messteams, in den Bereichen Raumakustik, Fahrzeug und Bahnlärm.

Publikationen

  • Toward Improved Consistency Between Databases of Head-Related Transfer Functions. / Bahu, Helene; Jot, Jean-Marc; Carpentier, Thibaut et al.
    in: Journal of the Audio Engineering Society, Jahrgang 74, Nr. 1-2, 01.03.2026.

    Since the creation of the spatially oriented format for acoustics (SOFA, Audio Engineering Society standard AES69), numerous databases of head-related transfer functions (HRTFs) are now available as standardized SOFA files. However, the methodologies for measuring and postprocessing HRTFs vary significantly across laboratories. This leads to objective and perceptual inconsistencies between HRTF databases and makes it challenging to integrate multiple databases into a single repository to facilitate wide-scale research and application. This paper introduces a normalization procedure, applicable to any HRTF data set, aimed at enhancing the consistency across HRTF data sets obtained from different laboratories while preserving the spatial information essential to HRTFs. The proposed approach consists of six processing steps: low-pass filtering, temporal alignment, temporal windowing, diffuse-field equalization, low-frequency extrapolation, and far-field correction. The normalization was evaluated on 17 HRTF data sets of the same dummy head by means of acoustic analyses and auditory simulations and further validated with respect to a database of 54 human subjects. Results show that the proposed normalization improves data set applicability and consistency while maintaining the directional cues within each data set.

  • Bayesian active sound localisation: To what extent do humans perform like an ideal-observer? / McLachlan, G; Majdak, P; Reijniers, J et al.
    in: PLoS Computational Biology, Jahrgang 21, Nr. 1, 07.01.2025, S. e1012108.
  • Effects of Monaural Spectral Cues on Sound Localisation during Small Head Movements. / McLachlan, G; Majdak, P; Reijniers, J et al.
    Proceedings of the Forum Acusticum 2023. Turin, 2023.
  • Recent Advances in the Spatially Oriented Format for Acoustics (SOFA, AES69). / Mihocic, M; Majdak, P; Zotter, F et al.
    Proceedings of the Forum Acusticum 2023. Turin, 2023.
  • VR/AR and hearing research: current examples and future challenges. / Picinali, L; Grimm, G; Hioka, Y et al.
    Proceedings of the Forum Acusticum 2023. Turin, 2023.
  • Dynamic spectral cues do not affect human sound localization during small head movements. / McLachlan, G; Majdak, P; Reijniers, J et al.
    in: Frontiers in Neuroscience, Jahrgang 17, 03.02.2023, S. 102782.
  • Spatially Oriented Format for Acoustics 2.1: Introduction and Recent Advances. / Majdak, P; Zotter, F; Brinkmann, F et al.
    in: AES: Journal of the Audio Engineering Society, Jahrgang 70/7/8, 19.07.2022, S. 565-584.
  • Auditory Modeling Toolbox (AMT) 1.2.0, minor release.Majdak, P (Autor:in); Hollomey, C (Autor:in); Baumgartner, R (Autor:in) et al.. 2022.
  • Auditory Modeling Toolbox (AMT) 1.1.0, minor release.Majdak, P (Autor:in); Hollomey, C (Autor:in); Baumgartner, R (Autor:in) et al.. 2021.
  • Auditory Modeling Toolbox (AMT) 1.0.0, Major release.Majdak, P (Autor:in); Hollomey, C (Autor:in); Baumgartner, R (Autor:in) et al.. 2021.
  • Auditory Modeling Toolbox (AMT) 0.10.0, minor release.Majdak, P (Autor:in); Baumgartner, R (Autor:in); Mihocic, M (Autor:in). 2020.
  • Method for determining listener-specific head-related transfer functions. / Majdak, P; Kreuzer, W; Baumgartner, R et al.
    2019.
  • A framework for geometry acquisition, 3-D printing, simulation, and measurement of head-related transfer functions with a focus on hearing-assistive devices. / Harder, S; Paulsen, R; Larsen, M et al.
    in: CAD Computer Aided Design, Jahrgang 75-76, 01.12.2016, S. 39-46.
  • Reliability in Measuring Head Related Transfer Functions of Hearing Aids. / Harder, S; Paulsen, R; Larsen, M et al.
    in: Acta Acustica, Jahrgang 101, 15.07.2015, S. 1064-1066.
  • ExpSuite: Open Source-Framework zur Durchführung psychoakustischer Experimente und akustischer Messungen. / Mihocic, Michael.
    Wien, 2014.
  • The Accuracy of Localizing virtual Sound Sources: Effects of Pointing Method and Visual Environment. / Majdak, P; Laback, B; Goupell, M et al.
    124th Convention of the Audio Engineering Society. 2008.
  • Ortung akustischer Quellen mittels eines Vielkanal-Messsystems/ÖBB300. / Mihocic, Michael.
    Wien: FH Technikum Wien, 2005.
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Membership, Functions

Michael Mihocic is member of the board of the Austrian Section of the Audio Engineering Society.