1. Anemüller, Carlotta and Herre, Jürgen
    Calculation of Directivity Patterns from Spherical Microphone Array Recordings
    In Audio Engineering Society Convention 147, 2019.
    title = {Calculation of {Directivity} {Patterns} from {Spherical} {Microphone} {Array} {Recordings}},
    url = {},
    abstract = {Taking into account the direction-dependent radiation of natural sound sources (such as musical instruments) can help to enhance auralization processing and thus improves the plausibility of simulated acoustical environments as, e.g., found in virtual reality (VR) systems. In order to quantify this direction-dependent behavior, usually so-called directivity patterns are used. This paper investigates two different methods that can be used to calculate directivity patterns from spherical...},
    language = {English},
    urldate = {2019-12-18},
    booktitle = {Audio {Engineering} {Society} {Convention} 147},
    publisher = {Audio Engineering Society},
    author = {Anemüller, Carlotta and Herre, Jürgen},
    month = oct,
    year = {2019},
    file = {Snapshot:C\:\\Users\\carlotta\\Zotero\\storage\\CPITRKJI\\browse.html:text/html}
  2. Kühl, S., Anemüller, C., Antweiler, C., Jax, P., Heese, F., and Vicinus, P.
    Acoustic Howling Detection and Suppression for IP-Based Teleconference Systems
    In Speech Communication; 13th ITG-Symposium: 1–5, 2018.
    title = {Acoustic {Howling} {Detection} and {Suppression} for {IP}-{Based} {Teleconference} {Systems}},
    booktitle = {Speech {Communication}; 13th {ITG}-{Symposium}},
    author = {Kühl, S. and Anemüller, C. and Antweiler, C. and Jax, P. and Heese, F. and Vicinus, P.},
    month = oct,
    year = {2018},
    pages = {1--5},
    file = {IEEE Xplore Abstract Record:C\:\\Users\\carlotta\\Zotero\\storage\\QJKPY6MS\\8578041.html:text/html;IEEE Xplore Full Text PDF:C\:\\Users\\carlotta\\Zotero\\storage\\C4TLGGXD\\Kuehl et al. - 2018 - Acoustic Howling Detection and Suppression for IP-.pdf:application/pdf}
  3. Liebich, S., Anemüller, C., Vary, P., Jax, P., Rüschen, D., and Leonhardt, S.
    Active Noise Cancellation in Headphones by Digital Robust Feedback Control
    In 2016 24th European Signal Processing Conference (EUSIPCO): 1843–1847, 2016. DOI
    title = {Active {Noise} {Cancellation} in {Headphones} by {Digital} {Robust} {Feedback} {Control}},
    doi = {10.1109/EUSIPCO.2016.7760567},
    booktitle = {2016 24th {European} {Signal} {Processing} {Conference} ({EUSIPCO})},
    author = {Liebich, S. and Anemüller, C. and Vary, P. and Jax, P. and Rüschen, D. and Leonhardt, S.},
    month = aug,
    year = {2016},
    keywords = {active noise control, Adaptive control, Attenuation, broadband noise reduction, closed loop sensitivity, closed loop systems, control theory, digital control, digital real time system, digital robust feedback control, discrete robust feedback control, discrete systems, error microphone, Frequency measurement, headphone active noise cancellation, headphones, Headphones, mixed sensitivity H∞ synthesis, optimal control, optimisation, Optimization, optimization routines, robust control, secondary path uncertainties, Sensitivity, Uncertainty},
    pages = {1843--1847},
    file = {IEEE Xplore Abstract Record:C\:\\Users\\carlotta\\Zotero\\storage\\VPRVR8Y9\\7760567.html:text/html;IEEE Xplore Full Text PDF:C\:\\Users\\carlotta\\Zotero\\storage\\3WDAIAP7\\Liebich et al. - 2016 - Active noise cancellation in headphones by digital.pdf:application/pdf}