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  • Moosmüller S.; Schmid C.; Sellner M. (Eds.) (2017) Phonetik in und über ÖsterreichVeröffentlichungen zur Linguistik und Kommunikationsforschung. Verlag der Österreichischen Akademie der Wissenschaften, Wien Bd. 31.
  • Pucher M.; Trouvain J.; Lozo C. (Eds.) (2019) HSCR 2019 - Proceedings of the Third International Workshop on the History of Speech Communication ResearchStudientexte zur Sprachkommunikation. Bd. Band 94.
  • Pustka E.; Pöchtrager M.; Lenz A.; Fanta-Jende J.; Horvath J.; Jansen L.; et al. (Eds.) (2020) Proceedings of the Conference "Phonetics and Phonology in the German Language Area" (P&P14), Wien. Wien.
  • Klingler N.; Pucher M. (Eds.) (2020) Proceedings of the Phonetics and Speech Technology Workshop (ÖLT2018).. The Phonetician Special Issue 117, .
  • Pucher M.; Balazs P. (Eds.) (2022) Akustische Phonetik und ihre multidisziplinären Aspekte. Verlag der Österreichischen Akademie der Wissenschaften, Wien.
  • Katz B.F.G.; Majdak P. (Eds.) (2022) Advances in Fundamental and Applied Research on Spatial Audio. IntechOpen, London.
  • Abbasi R.; Balazs P.; Noll A.; Nicolakis D.; Marconi M. A.; Zala S. M.; et al. (2019) Applying Convolutional Neural Networks to the Analysis of Mouse Ultrasonic Vocalizations. Proceedings of ICA 2019.
  • Abbasi R.; Balazs P.; Penn D. J.; Zala S. M. (2021) Pitfalls of Using Feature-Based Classification for Mouse Ultrasonic Vocalizations. DAGA 2021, Jahrestagung der Akustik.
  • Abbasi R.; Balazs P.; Spitzbart J.; Graf B.; Wallaszkovits N. (2021) A Quantitative Comparison of Traffic Noise During, Before and Long Before the Pandemic Using A-Posteriori Heuristic Calibration. DAGA 2021, Jahretagung der Akustik.
  • Abbasi R.; Balazs P.; Marconi M.A.; Nicolakis D.; Zala S.M.; Penn D.J. (2022) Capturing the songs of mice with an improved detection and classification method for ultrasonic vocalizations (BootSnap). PLoS Comput Biol, Bd. 18(5), S. e1010049.
  • Abreu L. D.; Ciaurri O.; Varona A. (2013) A q-linear analogue of the plane wave expansion. Advances in Applied Mathematics, Bd. 50, S. 415-428.
  • Abreu L. D.; Ciaurri O.; Varona A. (2013) The spectrum of the right inverse of the Dunkl operator. Revista Matematica Complutense, Bd. 26, S. 471-483.
  • Abreu L. D.; Faustino N. (2015) On Toeplitz operators and localization operators. Proceedings of the American Mathematical Society, Bd. 143, S. 4317-4323.
  • Abreu L. D.; Feichtinger H.G. (2014) Function spaces of polyanalytic function. In: Harmonic and Complex Analysis and its Applications.. Birkhäuser Verlag, Heidelberg, New York, Dordrecht S. 13881.
  • Abreu L. D. (2013) Special Frames. Proceedings of the SampTA 2013. Bremen, Germany S. 176-177.
  • Abreu L. D.; Gilbert J. E. (2014) Wavelet-type frames for the interval. Expositiones Mathematicae, Bd. 32, S. 274 - 283.
  • Abreu L. D.; Pereira J. M. (2015) Measures of localization and quantitative Nyquist densities. Applied and Computational Harmonic Analysis, Bd. 38, S. 524-534.
  • Abreu L. (2014) On accumulated Spectrograms. American Mathematical Society, Bd. 368, S. 3629-3649.
  • Abreu L. D.; Balazs P.; de Gosson M.; Mouayn Z. (2015) Discrete coherent states for higher Landau levels. Annals of Physics, Bd. 363, S. 337 -353.
  • Abreu L. D.; Romero J. L. (2016) Performance bounds for multitaper estimators. .
  • Abreu L. D. (2017) Superframes and polyanalytic wavelets. Journal of Fourier Analysis and its Applications, Bd. 23, S. 1-20.
  • Abreu L. D.; Pereira J. M.; Romero J. L.; Torquato S. (2017) The Weyl-Heisenberg ensemble: Statistical mechanics meets time-frequency analysis. Proceedings of the SampTA (2017). Tallinn S. 199-202.
  • Abreu L. D.; Romero J. L. (2017) Multitaper spectral estimation and off-grid compressive sensing: MSE estimates. Proceedings of the SampTA (2017). Tallinn S. 188-191.
  • Abreu L. D.; Speckbacher M. (2017) A planar large sieve and sparsity of time-frequency representations. Proceedings of the SampTA 2017. Tallinn S. 283-287.
  • Abreu L. D.; Pereira J. M.; Romero J.L.; Torquato S. (2017) The Weyl-Heisenberg ensemble: hyperuniformity and higher Landau levels. Journal of Statistical Mechanics: Theory and Experiment, Bd. 2017, S. 043103.
  • Abreu L. D.; Romero J. L. (2017) MSE estimates for multitaper spectral estimation and off-grid compressive sensing. IEEE Transactions on Information Theory, Bd. 63/12, S. 7770-7776.
  • Abreu L. D.; Pereira J. M.; Romero J. L. (2017) Sharp rates of convergence for accumulated spectrograms. Inverse Problems, Bd. 33, S. 115008.
  • Abreu L. D. (2018) Uniform convergence of basic Fourier-Bessel series on a q-linear grid. in The Ramanujan Journal, S. online.
  • Abreu L. D.; Gröchenig K.; Romero J. L. (2019) Harmonic analysis in phase space and finite Weyl-Heisenberg ensembles. Journal of Statistical Physics,, Bd. 174, S. 1104-1136.
  • Abreu L. D.; Alvarez-Nodarse R.; Cardoso J. L. (2019) Uniform convergence of basic Fourier-Bessel series on a q-linear grid. in The Ramanujan Journal,, Bd. 49, S. 421-449.
  • Abreu L. D.; Speckbacher M. (2021) Donoho-Logan large sieve principles for modulation and polyanalytic Fock spaces. Bulletin des Sciences Mathematiques, Bd. 103032.
  • Abreu L. D.; Balazs P.; Jaksic S. (2022) The affine ensemble: determinantal point processes associated with the ax+b group. Journal of the Mathematical Society of Japan.
  • Adcock B.; Gataric M.; Romero J.L. (2019) Computing reconstructions from nonuniform Fourier samples: Universality of stability barriers and stable sampling rates. Applied and Computational Harmonic Analysis, Bd. 46, S. 226-249.
  • Alberti G.; Boelcskei H.; De Lellis C.; Koliander G.; Riegler E. (2019) Lossless analog compression. IEEE Transactions on Information Theory, Bd. 65, S. 7480-7513.
  • Altoè A.; Baumgartner R.; Majdak P.; Pulkki V. (2014) Combining count-comparison and sagittal-plane localization models towards a three-dimensional representation of sound localization. Proceedings of the 7th Forum Acusticum. Krakow, Poland S. 42522.
  • Ameur Y.; Romero J.L. (2022) The planar low temperature coulomb gas: separation and equidistribution. Revista Matemática Iberoamericana.
  • Andén J.; Romero J. L. (2020) Multitaper Estimation on Arbitrary Domains. SIAM J. Imaging Sci., Bd. 13.3, S. 1565-1594.
  • Ansorge U.; Khalid S.; Laback B. (2016) Unconscious Cross-Modal Priming of Auditory Sound Localization by Visual Words. Journal of Experimental Psychology: Learning, Memory, and Cognition, Bd. 42, S. 925-937.
  • Antoine J.-P.; Balazs P. (2011) Frames and Semi-Frames. Journal of Physics A: Mathematical and Theoretical, Bd. 44, S. (online).
  • Antoine J. P.; Balazs P. (2012) Frames, Semi-Frames, and Hilbert Scales. Numerical Functional Analysis and Optimization, Bd. 33, S. 736-769.
  • Antoine J.-P.; Speckbacher M.; Trapani C. (2017) Reproducing pairs of measurable functions. Acta Applicandae Mathematicae, Bd. 150, S. 81-101.
  • Auzinger W.; Hofstätter H.; Kreuzer W.; Koch O.; Scrinzi A. (2005) Modified defect correction algorithms for ODEs. Part II: Stiff initial value problems. Numerical Algorithms, Bd. 40/3, S. 285-303.
  • Bachmann N. (2014) Complete Bessel Sequences. . Wien.
  • Balazs P. (2005) Regular and irregular Gabor frame multipliers with application to psychoacoustical masking. . Univ. Wien, Wien.
  • Balazs P. (2005) Gabor Multipliers with Application to Psychoacoustic. .
  • Balazs P.; Feichtinger H.G.; Hampejs M.; Kracher G. (2006) Double Preconditioning for Gabor Frames. IEEE Transactions on Signal Processing, Bd. 54 Nr. 12.
  • Balazs P. (2007) Basic Definition and Properties of Bessel Multipliers. Journal of Mathematical Analysis and Applications, Bd. 325, S. 571-585.
  • Balazs P.; Kreuzer W.; Waubke H. (2006) Effiziente Implementierung eines stochastischen Modells zur Berechnung von Erschütterungen in Böden und Fluiden. .
  • Balazs P.; Feichtinger H.G.; Hampejs M.; Kracher G. (2006) Double Preconditioning for the Gabor Frame Operator. .
  • Balazs P. (2008) Matrix Representation of Operators using Frames. Sampling Theory in Signal and Image Processing (STSIP).
  • Balazs P.; Kreuzer W.; Waubke H. (2007) A stochastic 2D-model for Calculating Vibrations in Random Layers. Journal of Computational Acoustics, Bd. Vol: 15, S. 271-283.
  • Balazs P. (2007) Frames and Finite Dimensionality: Frame Transformation, Classification and Algorithms (preprint online). .
  • Balazs P. (2008) Hilbert-Schmidt Operators and Frames - Classification, Approximation by Multipliers and Algorithms. International Journal of Wavelets, Multiresolution and Information Processing.
  • Balazs P.; Antoine J.P. (2007) Weighted and controlled frames. .
  • Balazs P. (2008) A Systematic Study of Frame Sequence Operators and their Pseudoinverses. International Mathematical Forum, Bd. 3, S. 229-239.
  • Balazs P. (2008) Frames and Finite Dimensionality: Frame Transformation, Classification and Algorithms. APPLIED MATHEMATICAL SCIENCES, Bd. Vol 2, S. 2131-2144.
  • Balazs P. (2009) Matrix Representation of Bounded Linear Operators By Bessel Sequences, Frames and Riesz Sequence. SAMPTA'09. Marseille S. Online.
  • Balazs P.; Laback B.; Eckel G.; Deutsch W.A. (2010) Time-Frequency Sparsity by Removing Perceptually Irrelevant Components Using a Simple Model of Simultaneous Masking. IEEE Transactions on Audio, Speech and Language Processing, Bd. 18/1, S. 34-49.
  • Balazs P.; Antoine J.-P.; Grybos A. (2010) Weighted and Controlled Frames: Mutual relationship and first Numerical Properties. International Journal of Wavelets, Multiresolution and Information Processing, Bd. 8, S. 109-132.
  • Balazs P.; Rieckh G. (2011) Oversampling Operators: Frame Representation of Operators. Analele Universitatii "Eftimie Murgu". Bd. 18 S. 107-114.
  • Balazs P.; Cabrelli C.; Heineken. S.; Molter U. (2011) Frames by Multiplication. Current Development in Theory and Applications of Wavelets, Bd. 5, S. 165-186.
  • Balazs P.; Dörfler M.; Holighaus N.; Jaillet F.; Velasco G. (2011) Theory, Implementation and Applications of Nonstationary Gabor Frames. Journal of Computational and Applied Mathematics, Bd. 237, S. 1481-1496.
  • Balazs P.; Stoeva D.; Antoine J.-P. (2011) Classification of General Sequences by Frame-Related Operators. Sampling Theory in Signal and Image Processing, Bd. 10, S. 151-170.
  • Balazs P.; Bayer D.; Rahimi A. (2012) Multipliers for Continuous Frames in Hilbert Spaces. J. Phys. A, Special issue on coherent states, Bd. 45, S. 244023.
  • Balazs P.; Dörfler M.; Kowalski M.; Torr"esani B. (2013) Adapted and adaptive linear time-frequency representations: a synthesis point of view. IEEE Signal Processing Magazine (special issue: Time-Frequency Analysis and Applications), Bd. 30, S. 20-31.
  • Balazs P.; Stoeva D. T. (2013) A review of the invertibility of Frame multipliers. Proceedings of the SampTA 2013. Bremen, Germany S. 186-188.
  • Balazs P.; Stoeva D. T. (2015) Representation of the inverse of a frame multiplier. J. Math. Anal. Appl., Bd. 422, S. 981-994.
  • Balazs P.; Bayer D.; Jaillet F.; Sondergaard P. (2016) The Pole Behaviour of the Phase Derivative of the Short-Time Fourier Transform. Applied and Computational Harmonic Analysis, Bd. 30, S. 610-621.
  • Balazs P.; Holighaus N.; Necciari T.; Stoeva D. T. (2017) Frame Theory for Signal Prcoessing in Psychoacoustics. In: Excursions in Harmonic Analysis Vol. 5. The February Fourier Talks at the Norbert Wiener Center.. Springer, Basel S. 225-268.
  • Balazs P.; Gröchenig K. (2017) A Guide to Localized Frames and Applications to Galerkin-like Representations of Operators. In: Frames and other Bases in Abstract and Function Spaces.Applied and Numerical Harmonic Analysis. Birkhauser/Springer, Cham S. 47-79.
  • Balazs P. (2018) Frame Multipliers - a mathematical background for time-variant filters and auditory scene analysis. Fortschritte in der Akustik (DAGA 2018).
  • Balazs P.; Harbrecht H. (2019) Frames for the solution of operator in Hilbert spaces with fixed dual pairing. Numerical Functional Analysis and Optimization, Bd. 40, S. 65-84.
  • Balazs P.; Heineken S. (2019) An Operator Based Approach to Irregular Frames of Translates. Mathematics as part of the Special Issue Harmonic Analysis.
  • Balazs P.; Shamsabadi M.; Arefijamaal A.; Rahimi A. (2019) U-cross Gram matrices and their invertibility. Journal of Mathematical Analysis and Applications, Bd. 476, S. 367-390.
  • Balazs P.; Gröchenig K.; Speckbacher M. (2019) Kernel Theorems in Coorbit Theory. Transactions of the American Mathematical Society.
  • Balazs P.; Holighaus N. (2020) LTFAT - Die Zeit-Frequenz Toolbox. Jubiläumstagungsband DAGA 2020.
  • Balazs P.; Kasess C.; Kreuzer W.; Maly T.; Průša Z.; Jaillet F. (2021) Anwendung von Rahmen-Multiplikatoren für die Extraktion von Kurvenquietschen von Zugsaufnahmen. e & i Elektrotechnik und Informationstechnik, Bd. 138, S. 206-211.
  • Balazs P.; Teofanov N. (2022) Continuous Frames in Tensor Product Hilbert Spaces, Localization Operators and Density Operators. Journal of Physics A: Mathematical and Theoretical, Bd. 55, S. 145201.
  • Balazs P.; Bellomonte G.; Hosseinnezhad H. (2022) Frame-Related Sequences in Chains and Scales of Hilbert Spaces. Axioms, Bd. 11(4), S. 180.
  • Balazs P.; Tauböck G.; Rajbamshi S.; Holighaus N. (2022) Audio Inpainting. Proceedings: A16, Numerical, Computational and Theoretical Acoustics, ICA 2022. Gyeongju S. 186-189.
  • Barumerli R.; Majdak P.; Baumgartner R.; Geronazzo M.; Avanzini F. (2020) Evaluation of a human sound localization model based on Bayesian inference. Proceedings of Forum Acusticum 2020, Lyon. Lyon S. 1919-1923.
  • Barumerli R.; Majdak P.; Baumgartner R.; Geronazzo M.; Avanzini F. (2020) Predicting Directional Sound-Localization of Human Listeners in both Horizontal and Vertical Dimensions. Audio Engineering Society Convention. Bd. 148.
  • Barumerli R.; Majdak P.; Geronazzo M.; Avanzini F.; Meijer D.; Baumgartner R. (2022) Evaluation of spatial tasks in virtual acoustic environments by means of modeling individual localization performances. Proceedings: A21, Virtual Acoustics, ICA 2022. Gyeongju S. 64-66.
  • Barumerli R.; Meijer D.; Baumgartner R. (2022) Joint modeling confirms pupil dilation as neurophysiological marker of Bayesian spatial inference in dynamic auditory environments. Proceedings: A11, Psychoacoustics, ICA 2022. Gyeongju S. 158-160.
  • Barumerli R.; Majdak P. (2022) Towards a general probabilistic framework to predict human sound localization. Proceedings: A11, Psychoacoustics, ICA 2022. Gyeongju S. 161-163.
  • Baumgartner W.D.; Laback B.; Majdak P. (2007) Interaural Time Differences in Ongoing and Gating Signal Portions in Acoustics and Electric Hearing: Model Results. .
  • Baumgartner R. (2012) Modeling sagittal-plane sound localization with the application to subband-encoded head-related transfer functions. . Kunstuniversität Graz, S. 94.
  • Baumgartner R.; Majdak P.; Laback B. (2013) Modeling human localization performance of sound sources in sagittal planes. AIA-DAGA 2013. Meran, Italy S. 703-704.
  • Baumgartner R.; Majdak P. (2013) Modeling sound localization of amplitude-panned phantom sources in sagittal planes. Proceedings of the 134th Convention of the Audio Engineering Society (AES). Rome, Italy S. Convention paper 8910.
  • Baumgartner R.; Majdak P.; Laback B. (2013) Assessment of sagittal-plane sound localization performance in spatial-audio applications. In: The Technology of Binaural Listening.. Springer, Berlin-Heidelberg-New York S. 93-119.
  • Baumgartner R.; Majdak P.; Laback B. (2014) Modeling Sound-Source Localization in Sagittal Planes for Human Listeners. The Journal of the Acoustical Society of America, Bd. 136, S. 791-802.
  • Baumgartner R.; Majdak P.; Marelli D. (2014) Sound localization with an efficient representation of head-related transfer functions in subbands. Proceedings of the 7th Forum Acusticum. Krakow, Poland S. 42491.
  • Baumgartner R.; Majdak P. (2015) Modeling Localization of Amplitude-Panned Virtual Sources in Sagittal Planes. J. Audio Eng. Soc, Bd. 63, S. 562-569.
  • Baumgartner R. (2015) Modeling sound localization in sagittal planes for human listeners. . Kunstuniversität Graz, S. 92.
  • Baumgartner R.; Majdak P.; Laback B. (2016) Modeling the Effects of Sensorineural Hearing Loss on Sound Localization in the Median Plane. Trends in Hearing, Bd. 20, S. 1-11.
  • Baumgartner R.; Majdak P.; Laback B. (2016) Erratum: Modeling sound-source localization in sagittal planes for human listeners [J. Acoust. Soc. Am. 136, 791-802 (2014)]. The Journal of the Acoustical Society of America, Bd. 140, S. 2456.
  • Baumgartner R.; Reed D.K.; Tóth B.; Best V.; Majdak P.; Colburn H.S.; et al. (2017) Asymmetries in behavioral and neural responses to spectral cues demonstrate the generality of auditory looming bias. Proceedings of the National Academy of Sciences of the USA, Bd. 114, S. 9743-9748.
  • Baumgartner R. (2019) Richtungshören - Lokalisieren, Externalisieren und Fokussieren. Fortschritte der Akustik DAGA2019. Rostock S. 8-10.
  • Baumgartner R. (2019) Predicting Externalization of Anechoic Sounds. Proceedings of ICA 2019.
  • Baumgartner R. (2021) The balancing act of spatial hearing. Akustik Journal, DEGA, S. 31-36.
  • Baumgartner R.; Majdak P. (2021) Decision making in auditory externalization perception: model predictions for static conditions. Acta Acustica 2021, Bd. 5, S. 14.
  • Bayer D.; Balazs P.; Jaillet F. (2010) On the Structure of the Phase around the Zeros of the Short-Time Fourier Transform. Proceedings of the DAGA 2010. Berlin S. 921-922.
  • Bayer D. (2011) Bilinear Time-Frequency Distributions and Pseudodifferential Operators. . Universität Wien, Fakultät für Mathematik, .
  • Bayer D.; Balazs P. (2013) (Non-) Density Properties of Discrete Gabor Multipliers. Proceedings of the SampTA 2013. Bremen, Germany S. 25-28.
  • Bayer D.; Gröchenig K. (2015) Time-Frequency Localiszation Operators and a Berezin Transform. , Bd. online, S. online.
  • Becker T. (2006) Strukturen in Sprachdatenkorpora. .
  • Becker T. (2007) Einfluss der K-Means-Clusteranalyse auf die automatische Sprecheridentifikation. .
  • Becker T. (2007) The influence of Intra-Speaker Variability in Automatic Speaker Identification. Proceedings of the IAFPA (IAFPA, ed.). Plymouth.
  • Becker T. (2007) MFCC Feature vector Extraction using STx. (ISF-Homepage, ed.).
  • Becker T.; Kreuzer W. (2008) Automatische Sprecherverifikation basierend auf Stimmgrundfrequenz-Merkmalen mittels Hauptkomponentenanalyse. DAGA 2008.
  • Becker T. (2008) The influence of intra-speaker variability in automatic speaker verification using F0 features. . Lausanne.
  • Becker T.; Grigoras C.; Jessen M. (2008) Forensic Speaker Verification Using Formant Features and Gaussion Mixture Models. Proceedings of Interspeech 2008 incorporating SST' 08. Brisbane.
  • Becker T.; Jessen M.; Grigoras C. (2009) Speaker Verification Based on Formants Using Gaussian Mixture Models. NAG/DAGA 2009 (M. M. Boone, ed.). Rotterdam S. 1640-1643.
  • Berra M.; de Hoop M. V.; Romero J. L. (2022) A multi-scale Gaussian beam parametrix for the wave equation: the Dirichlet boundary value problem. Journal of Differential Equations, Bd. 309, S. 949-993.
  • Best V.; Laback B.; Majdak P. (2011) Binaural interference in bilateral cochlear-implant listeners. Journal of the Acoustical Society of America, Bd. 130, S. 2939-2950.
  • Best V.; Baumgartner R.; Lavandier M.; Majdak P.; Kopco N. (2020) Sound externalization: a review of recent research. Trends in Hearing, Bd. 24, S. 1-14.
  • Blank-Landeshammer B.; Sporr A.; Drexler-Schmid G.; Kasess C. H.; Köfinger C.; Emhofer J.; et al. (2021) Noise Propagation Modelling and Mapping using Augmented Reality for HVAC Sound Sources. Proceedings of the 27th International Congress on Sound and Vibration, Prague. Prague.
  • Blazas P. (2006) Frame multiplier and irregular Gabor filters with application in time frequency masking. .
  • Bodmann B. G.; Ehler M.; Gräf M. (2017) From low to high-dimensional moments without magic. Journal of Theoretical Probabillity, S. online.
  • Boren B.; Geronazzo M.; Majdak P (2014) PHOnA: A Public Dataset of Measured Headphone Transfer Functions. Convention Paper of the 137th Convention of the AES.
  • Bosker H.-R.; Sjerps M. J.; Reinisch E. (2020) Spectral context effects are modulated by selective attention in "cocktail party" settings. Attention, Perception & Psychophysics, Bd. 82, S. 1318-1332.
  • Bosker H.-R.; Sjerps M. J.; Reinisch E. (2020) Temporal contrast effects in human speech perception are immune to selective attention. Scientific Reports, Bd. 10, S. 5607.
  • Bowling D.; Hoeschele M.; Dunn J. (2020) Progress without exclusion in the search for an evolutionary basis of music. Behavioural and Brain Sciences.
  • Bowling D. L.; Gahr J.; Graf Ancochea P.; Hoeschele M.; Canoine V.; Fusani L.; et al. (2022) Endogenous oxytocin, cortisol, and testosterone in response to group singing. Hormones and Behavior, Bd. 139.
  • Brand J.; Kreuzer W.; Gräf M.; Ehler M. (2017) Vergleich verschiedener Abtastmethoden auf der Kugeloberfläche. Fortschritte in der Akustik DAGA. Kiel S. 1291-1294.
  • Brandstätter J.; Kasess C.; Moosmüller S. (2015) Quality and Quantity in high vowels in Standard Austrian German. In: Trends in phonetics and phonology in German speaking Europe.. Peter Lang, Frankfurt am Main S. 79-92.
  • Brandstätter J.; Moosmüller S. (2017) Die Distinktion von standardsprachlich /e:/ und /E/ im Lichte der mittelbairischen "E-Verwirrung". In: Bayerisch-österreichischer Varietäten zu Beginn des 21. Jahrhunderts - Dynamik, Struktur, Funktion. (Zeitschrift für Dialektologie und Linguistik - Beihefte).. Steiner, Stuttgart S. 163-176.
  • Brandstätter J.; Moosmüller S. (2015) Neutralisierung der hohen ungerundeten Vokale in der Wiener Standardsprache. In: Standarddeutsch in Österreich - Theoretische und empirische Ansätze.Wiener Arbeiten zur Linguistik. Vandenhoeck & Ruprecht, Wien S. 183 - 203.
  • Breger A.; Ehler M.; Gräf M. (2017) Quasi Monte Carlo Integration and Kernel-Based Function Approximation on GrassmanniansFrames and Other Bases in Abstract and Function Spaces. (Applied and Numerical Harmonic Analysis) (I. Pesenson, Le Gia, Q., Mayeli, A., Mhaskar, H., and Zhou, D. -X., eds.). Springer/Birkhauser, Cham S. 333-353.
  • Breger A.; Ehler M.; Gräf M.; Peter T. (2018) Cubatures on Grassmannians: moments, dimension reduction, and related topicsCompressed Sensing and its Applications: Second International MATHEON Conference 2015 (H. Boche, Caire, G., Calderbank, R., März, M., Kutyniok, G., and Matha, R., eds.). Springer International Publishing, Basel S. 235-259.
  • Caillat J.; Zanghellini J.; Kitzler M.; Kreuzer W.; Koch O.; Scrinzi A. (2005) Correlated Multielectron Systems in Strong Laser Pulses - An MCTDHF Approach. Phys. Rev., Bd. A 71, S. 12712-12725.
  • Chardon G. (2014) A block-sparse MUSIC algorithm for the localization and the identification of directive sources. Proceedings of International Conference on Acoustics, Speech and Signal Processing (ICASSP) 2014. Florence, Italy.
  • Chardon G.; Kreuzer W.; Noisternig M. (2014) Design of a robust open spherical microphone array. Proceedings of the 39th International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2014). Florence, Italy.
  • Chardon G.; Necciari Th.; Balazs P. (2014) Perceptual matching pursuit with Gabor dictionaries and time-frequency masking. Proceedings of the 39th International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2014). Florence, Italy S. 3126-3130.
  • Chardon G.; Kreuzer W.; Noisternig M. (2015) Design of spatial microphone arrays for sound field interpolation. IEEE J. Sel. Top. Signa., Bd. 9, S. 780-790.
  • Chen Z.; Kreuzer W.; Waubke H. (2008) A formulation of the fast multipole boundary element method (FMBEM) for acoustic radiation and scattering from three-dimensional structures. Journal of Computational Acoustics, Bd. 16.
  • Chen Z.; Waubke H. (2007) A Formulation of the Boundary Element Method for Acoustic Radiation and Scattering from two-dimensional structures. Journal of Coumputational Acoustics, Bd. 15.
  • Chen Z. (2008) Anwendung einer symmetrischen Galerkin Randelemente Formulierung für das Buffle Problem. Fortschritte in der Akustik. Dresden.
  • Chen Z.; Waubke H. (2010) A simple Method for computing the Green Functions of the Helmholtz Equation in the two-dimensional Impedance Half Space. Journal of Computational Acoustics, Bd. 18/1, S. 1-11.
  • Chen Z.-S.; Kreuzer W.; Waubke H.; Svobodnik A.J. (2011) A Burton-Miller formulation of the boundary element method for baffle problems in acoustics and the BEM/FEM coupling. Engn. Anal. Bound. Elem., Bd. 35, S. 279-288.
  • Chen Z.-S.; Kreuzer W.; Waubke H.; Svobodnik A. J. (2010) “A formulation of the BEM and the FMBEM for acoustic problems in the time domain as well as their coupling with the structural FMBEM”. S. 38.
  • Christensen O.; Stoeva D. T. (2015) On R-duals and the duality principle. Sampling Theory and Applications SampTA 2015. IEEE, S. 352-356.
  • Christensen O.; Hasannasab M.; Stoeva D. T. (2018) Operator representations of sequences and dynamical sampling. Sampling Theory in Signal and Image Processing, Bd. 17, S. 29-42.
  • Cronenberg J.; Klingler N.; Kleber F.; Pucher M. (2022) On the role of asymmetry in prosodic change of consonant duration: Results from an agent-based model with two German varieties. Proceedings of Speech Prosody 2022. Lissabon S. 249 - 253.
  • Cunha C.; Harrington J.; Moosmüller S.; Brandstätter J. (2015) The influence of consonantal context on the tense-lax contrast in two standard, varieties of German. In: Trends in phonetics and phonology in German speaking Europe.. Peter Lang, Frankfurt am Main S. 64-77.
  • Cvitkovic M.; Koliander G. (2019) Minimal achievable sufficient statistic learning. Proc. Mach. Learn. Res. (ICML 2019). Long Beach, CA, USA Bd. 97 S. 1465-1474.
  • Deng Y.; Choi I.; Shinn-Cunningham B.; Baumgartner R. (2019) Impoverished auditory cues limit engagement of brain networks controlling spatial selective attention. Neuroimage, Bd. 202, S. 116151.
  • Derawi H.; Reinisch E.; Gabay Y. (2022) Increased reliance on top-down information to compensate for reduced bottom-up use of acoustic cues in dyslexia. Psychonomic Bulletin & Review, Bd. 29, S. 281-292.
  • Derrien O.; Necciari T.; Balazs P. (2015) A quasi-orthogonal, invertible, and perceptually relevant time-frequency transform for audio coding. Proceedings of the 23rd European Signal Processing Conference (EUSIPCO 2015). Nice, France S. 804-808.
  • Diao Y.; Hu G.; Marelli D.; Lin Z.; Fu M. (2014) Cooperative Localization of a cascading quadrilateral network. Proceedings of the 11th IEEE International Conference on Control & Automation (ICCA). S. 13-18.
  • Dietz M.; Wendt T.; Ewert S.; Laback B.; Hohmann V. (2013) Comparing the effect of pause duration on threshold interaural time differences between exponential and squared-sine envelopes. Journal of the Acoustical Society of America, Bd. 133, S. 42095.
  • Djabbari D. (2013) Perspectives on Finnish Nasal Place Assimilation. . University of Vienna, .
  • Dörfler M.; Balazs P.; Jaillet F. (2009) Removing Components from a Time-Frequency Representation. NAG/DAGA 2009 (M. M. Boone, ed.). Rotterdam S. 1596-1599.
  • Dörfler M. (2010) Representation of operators in the time-frequency domain and generalized Gabor multipliers. J. Fourier Anal. Appl., Bd. 16, S. 261-293.
  • Dörfler M.; Torresani B. (2009) Representation of operators by sampling in the time-frequency domain. SAMPTA 09. Marseille S. Online.
  • Drexler-Schmid G.; Kasess C. H.; Blank-Landeshammer B.; Köfinger C.; Emhofer J.; Waubke H.; et al. (2021) Augmented reality acoustics of air heat pumps - App development and methods. Proceedings of the 13th IEA Heat Pump Conference 2021, Jeju Island. Jeju Island S. CD-ROM.
  • Egger K. (2012) Perception and neural representation of suprathreshold signals in the presence of complex maskers. . Technische Universität Graz, .
  • Egger K.; Epp B. (2013) Suprathreshold perception of tones in conditions of masking release. AIA-DAGA 2013. Meran, Italy S. 1276-1279.
  • Egger K.; Majdak P.; Laback B. (2014) Frequenzintegration von interauralen Laufzeitdifferenzen bei bilateral implantierten Cochleaimplantat-Trägern. Fortschritte der Akustik, DAGA 2014. Oldenburg, Germany S. 421-422.
  • Egger K.; Majdak P.; Laback B. (2016) Channel Interaction and Current Level Affect Across-Electrode Integration of Interaural Time Differences in Bilateral Cochlear Implant Listeners. Journal of the Association for Research in Otolaryngology, Bd. 17, S. 55-67.
  • Egger K.; Majdak P.; Laback B. (2017) Binaural timing information in electric hearing at low rates: Effects of inacurrate encoding and loudness. The Journal of the Acoustical Society of America, Bd. 141, S. 3164-3174.
  • Ehler M.; Gräf M. (2017) Numerically optimizing weights for Monte Carlo integration on smooth compact manifolds. 19th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC 2017). Timisoara S. 393-396.
  • Ehler M.; Gräf M. (2018) Reproducing Kernels for the Irreducible Components of Polynomial Spaces on Unions of Grassmannians. Constructive Approximation, Bd. 49, S. 29 - 58.
  • Ehler M.; Graef M.; J. Oates C. (2019) Optimal Monte Carlo integration on closed manifolds. Statistics and Computing, Bd. 29, S. 1203-1214.
  • Eisenwort B.; Schmid C.; Tilis M.; Tsoy D.; Diendorfer-Radner G.; Sedlaczek A.; et al. (2020) Important aspects in the assessment of bilingual children with suspected language impairment: The Vienna Model. Neuropsychiatrie, Bd. 35(3), S. 135-139.
  • Eisenwort B.; Schmid C.; Yousuf F.; Winkler A.; Felnhofer A.; Klier C. (2022) Mehrsprachiges Aufwachsen und Sprachentwicklungsstörungen. Sylvia Moosmüllers Forschung über Sprachvariation und die klinische Praxis der Sprachdiagnostik. In: Akustische Phonetik und ihre multidisziplinären Aspekte.. Verlag der Österreichischen Akademie der Wissenschaften, Wien S. 49-66.
  • Eiwen D.; Tauböck G.; Hlawatsch F.; Feichtinger H. (2014) Multichannel group sparsity methods for compressive channel estimation in doubly selective multicarrier MIMO systems. .
  • El Zarka D.; Schuppler B.; Lozo C.; Eibler W.; Wurzwallner P. (2017) Acoustic correlates of stress and accent in Standard Austrian German. In: Phonetik in und über Österreich.. Verlag der Österr. Akademie der Wissenschaften, Wien S. 15-44.
  • Enzinger E. (2010) Parametric Diphthong Formant Trajectory Representations for Forensic Speaker Recognition. Proceedings of the 36th annual conference of the German Acoustical Society (DAGA). Berlin S. 993-994.
  • Enzinger E. (2010) Characterizing Formant Tracks in Viennese Diphthongs for Forensic Speaker Comparison. Proceedings of the AES 39th International Conference - Audio Forensics. Hillerød, Denmark S. 47-52.
  • Enzinger E. (2010) Formant trajectories in forensic speaker recognition. . Philologisch-Kulturwissenschaftliche Fakultät, Universität Wien, Berlin.
  • Enzinger E.; Balazs P. (2011) Speaker Verification using Pole/Zero Estimates of Nasals. Analele Universitatii "Eftimie Murgu". Bd. XVIII S. 33-44.
  • Enzinger E.; Balazs P.; Marelli D.; Becker T. (2011) A logarithmic based pole-zero vocal tract model estimation for speaker verification. Proceedings of the International Conference on Acoustics, Speech and Signal Processing 2011. Prague.
  • Enzinger E.; Zhang C.; Morrison G. S. (2012) Voice source features for forensic voice comparison - an evaluation of the GLOTTEX software package. Proceedings of Odyssey 2012: The Speaker and Language Recognition Workshop. Singapore S. 78-85.
  • Enzinger E.; Morrison G. S. (2012) The importance of using between-session test data in evaluating the performance of forensic-voice-comparison systems. Proceedings of the 14th Australasian International Conference on Speech Science and Technology (SST 2012). Sydney, Australia S. 137-140.
  • Enzinger E. (2013) Mismatched distances from speakers to telephone in a forensic-voice-comparison case. Proceedings of the 21st International Congress on Acoustics (ICA). Montreal, Canada Bd. 19 S. 60039.
  • Enzinger E.; Kasess C. H. (2013) Experiments on using Vocal Tract Estimates of Nasal Stops for Speaker Verification. Proceedings of the 7th International Conference on Speech Technology and Human-Computer Dialogue (SpeD 2013). Cluj-Napoca, Romania.
  • Enzinger E. (2013) Testing the validity and reliability of forensic voice comparison based on reassigned time-frequency representations of Chinese /iau/. Proceedings of the IEEE International Workshop on Information Forensics and Security (WIFS). Guangzhou, China S. 13-18.
  • Enzinger E. (2014) A first attempt at compensating for effects due to recording-condition mismatch in formant-trajectory-based forensic voice comparison. Proceedings of the 15th Australasian International Conference on Speech Science and Technology (SST 2014). Christchurch, New Zealand S. 133-136.
  • Enzinger E.; Kasess C. H. (2014) Bayesian vocal tract model estimates of nasal stops for speaker verification. IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP). Florence, Italy S. 1685-1689.
  • Enzinger E.; Morrison G.S. (2015) Mismatched distances from speakers to telephone in a forensic-voice-comparison case. Speech Communication, Bd. 70, S. 28-41.
  • Enzinger E.; Morrison G.; Ochoa F. (2016) A demonstration of the application of the new paradigm for the evaluation of forensic evidence under conditions reflecting those of a real forensic-voice-comparison case. Science & Justice, Bd. 56, S. 42-57.
  • Escudero L. A.; Haimi A.; Romero J. L. (2020) Multiple sampling and interpolation in weighted Fock spaces of entire functions. Complex Analysis and Operator Theory.
  • Escudero L. A.; Feldheim N.; Koliander G.; Romero J. L. (2022) Efficient computation of the zeros of the Bargmann transform under additive white noise. Foundations of Computational Mathematics.
  • Feichtinger H.G. (2022) Homogeneous Banach spaces as Banach convolution modules over M (G). MDPI, Mathematics, Bd. 10, S. 1-22.
  • Feichtinger H.G. (2022) Translation and modulation invariant Banach spaces of tempered distributions satisfy the Metric Approximation Property. Analysis and Applications, Bd. 20 (6), S. 1271–1293.
  • Ferber M. (2017) Pasiticity of Spatial Processing in Normal Hearing: Reweighting of Binaural Cues. . University of Vienna (Faculty of Psychology), .
  • Ferber M.; Laback B.; Kopco N. (2018) Vision-induced reweighting of binaural localization cues. . Acoustical Society of America (ASA), Bd. 143 S. 1813.
  • Ferber M.; Laback B.; Lindenbeck M. (2019) Reweighting of Binaural Localization Cues in Bilateral Cochlear Implant Listeners. Conference on Implantable Auditory Prostheses. S. 62.
  • Filippi P.; Hoeschele M.; Spierings M.; Bowling D. L. (2020) Temporal modulation in speech, music and animal vocal communication: evidence of conserved function. Annals of the New York Academy of Sciences, Bd. 1453(1), S. 99 - 113.
  • Führ H.; Gröchenig K.; Haimi A.; Klotz A.; Romero J. L. (2017) Density of sampling and interpolation in reproducing kernel Hilbert spaces. Journal of the London Mathematical Society.
  • G. Chardon L. Daudet (2013) Low-complexity computation of plate eigenmodes with Vekua approximations and the Method of Particular Solutions. Computational Mechanics, Bd. 52, S. 983-992.
  • G. Chardon A. Cohen (2013) Reconstruction of solutions to the Helmholtz equation from punctual measurements. Proceedings of SampTA2013. Bremen, Germany S. 164-167.
  • Gansterer W.; Kreuzer W.; Lischka H. (2006) Data Reduction Schemes in Davidson Subspace Diagonalization for MR-CI. Fifth International Conference on Large Scale Scientific Computations (I. Lirkov, S. Margenov,, and J. Wasniewski,, eds.). Springer-Verlag, Sozopol S. 564-571.
  • Gottschall Ch. (2007) Principia Mathematica-Variante eines interaktiven Beweisbauers (interaktive Schulungssoftware). (Webseite des Instituts für Philosophie der Universität Wien, ed.).
  • Goupell M.; Baumgartner W.D.; Laback B.; Majdak P. (2007) Effect of different frequency mappings on speech intelligibility for CI listeners. Fortschritte der Akustik. Stuttgart.
  • Goupell M.; Laback B.; Majdak P.; Baumgartner W.D. (2008) Effects of upper-frequency boundary and spectral warping on speech intelligibility in electrical stimulation. J. Acoust. Soc. Am., S. 2295-2309.
  • Goupell M.; Laback B.; Majdak P.; Baumgartner W.D. (2008) Sensitivity to Spectral Features for Sound Localization in Cochlear-Implant Listeners. .
  • Goupell M.; Laback B.; Majdak P.; Baumgartner W. D. (2008) Current-level discrimination and spectral profile analysis in multi-channel electrical stimulation. J. Acoust. Soc. Am., Bd. 124, S. 3142-3157.
  • Goupell M.; Laback B.; Majdak P.; Baumgartner W.D. (2008) Spectral Profile Analysis in Cochlear Implant Listeners. . Dresden.
  • Goupell M.; Hancock K.; Majdak P.; Laback B.; Delgutte B. (2010) Binaurally-coherent jitter improves neural and perceptual ITD sensitivity in normal and electric hearing. In: The Neurophysiological Bases of Auditory Perception.. Springer, New York S. 303-313.
  • Goupell M. J.; Laback B.; Majdak P. (2009) Enhancing sensitivity to interaural time differences at high modulation rates by introducing temporal jitter. J. Acoust. Soc. Am., Bd. 126, S. 2511-2521.
  • Goupell M. (2009) The localization of channel-vocoded stimuli in the median plane. . Lake Tahoe.
  • Goupell M. J.; Majdak P.; Laback B. (2010) Median-plane sound localization as a function of the number of spectral channels using a channel vocoder. J. Acoust. Soc. Am., Bd. 127, S. 990-1001.
  • Grigoras C.; Smith J. M.; Morrison G. S.; Enzinger E. (2013) Forensic audio analysis - Review: 2010-2013. Proceedings of the 17th International Forensic Science Symposium. Lyon, France S. 612-637.
  • Gröchenig K.; Romero J. L.; Stöckler J. (2017) Sharp Sampling Theorems in Shift-invariant Spaces. Proceedings of the SampTA (2017). Tallinn S. 22-25.
  • Gröchenig K.; Romero J. L.; Stöckler J. (2018) Sampling theorems for shift-invariant spaces, Gabor frames, and totally positive functions. Inventiones Mathematicae, Bd. 211, S. 1119-1148.
  • Gröchenig K.; Romero J. L.; Stöckler J. (2020) Sharp Results on Sampling with Derivatives in Shift-Invariant Spaces and Multi-Window Gabor Frames. Constructive Approximation, Bd. 51, S. 1-25.
  • Gröchenig K.; Haimi A.; Romero J. L.; Ortega-Cerda J. (2019) Strict density inequalities for sampling and interpolation in weighted spaces of holomorphic functions. Journal of Functional Analysis, S. 33.
  • Gröchenig K.; Romero J. L.; Rottensteiner D.; van Velthoven J. T. (2020) Balian-Low type theorems on homogeneous groups. Analysis Mathematica, S. 483-515.
  • Gutscher L.; Pucher M.; Lozo C.; Hoeschele M.; Mann D. (2019) Statistical parametric synthesis of budgerigar songs. SSW10 - The 10th ISCA Speech Synthesis Workshop. Vienna S. 127-131.
  • Gutscher L.; Klingler N.; Pucher M. (2022) Einfluss von Entrauschungsverfahren auf die automatische Segmentierung mit WebMAUS. Studientexte zur Sprachkommunikation: Elektronische Sprachsignalverarbeitung. Sonderborg S. 147-153.
  • Gygi B.; Deutsch W.A.; Noll A.; Hirner A.; Becker T. (2007) NOIDESq: Incorporating Feature Descriptors into a novel Railway Noise Evaluation Scheme. Proceedings of the 19th International Congress on Acoustics.
  • Haider A. (2008) Auditory localization using HRTF. .
  • Haider D.; Balazs P. (2019) Extraction of Rhythmical Features with the Gabor Scattering Transform. Proceedings of the 14th International Symposium on Computer Music Multidisciplinary Research (CMMR), Marseille, France, Oct. 14-18. S. 916-923.
  • Haider D. (2020) Aspects of Time-Frequency Scattering and Introducing Phase Scattering. . MA Thesis, .
  • Haider D.; Holighaus N.; Balazs P. (2021) Phase-Based Signal Representations for Scattering. European Signal Processing Conference (EUSIPCO21).
  • Haider D.; Balazs P.; Holighaus N.; Gutscher L. (2021) Zeit-Frequenz Darstellungen und Deep Learning. DAGA 2021, Jahrestagung für Akustik. Vienna.
  • Haimi A.; Koliander G.; Romero J.L. (2022) Zeros of Gaussian Weyl-Heisenberg Functions and Hyperuniformity of Charge. Journal of Statistical Physics, Bd. 187/3, S. Paper Nr. 22.
  • Harder S.; Paulsen R. R.; Larsen M.; Laugesen S.; Mihocic M.; Majdak P. (2016) A framework for geometry acquisition, 3-D printing, simulation, and measurement of head-related transfer functions with a focus on hearing-assistive devices. Computer-Aided Design, Bd. 75-76, S. 39-46.
  • Harder S.; Paulsen R. R.; Larsen M.; Laugesen S.; Mihocic M.; Majdak P. (2015) Reliability in Measuring Head Related Transfer Functions of Hearing Aids. , Bd. 101, S. 1064-1066.
  • Hildenbrandt T. (2013) Ach, ich und die /r/-Vokalisierung. On the difference in the distribution of x and ç in Standard German and Standard Austrian German. . University of Vienna, Vienna S. 115.
  • Hildenbrandt T.; Moosmüller S.; Neubarth F. (2013) Orthographic encoding of the Viennese dialect for machine translation. Human Language Technologies as a Challenge for Computer Science and Linguistics, Proceedings of the 6th Language & Technology Conference, LTC'13, December 7-9, 2013 (Z. Vetulani and Uszkoreit, H., eds.). Poznan, Poland S. 399-403.
  • Hildenbrandt T.; Moosmüller S. (2015) The pronunciation of <-ig> in three varieties of Austria. In: Language Variation - European Perspectives V. Selected papers from the 7th International Conference on language variation in Europe (ICLaVE 7), Trondheim, June 2013.. Benjamins, Amsterdam S. 111-128.
  • Hobel B.; Moosmüller S.; Kasess C. H. (2015) The pronunciation of orthographic <ä, äh> in Standard Austrian German. Proceedings of the 18th International Congress of Phonetic Sciences (ICPhS 2015). Glasgow, Scottland.
  • Hobel B.; Vollmann R. (2015) Phonological case study of the use of (Styrian) dialect and standard language in German as a second language. Grazer Linguistische Studien, S. 43952.
  • Hobel B.; Moosmüller S.; Kasess C. H. (2016) Pronunciation norms and pronunciation habits of orthographic <ä, äh> in Standard Austrian German. The Phonetician, Bd. 113, S. 24-48.
  • Hobel B.; Moosmüller S.; Kasess C. H. (2016) The realisation of Albanian laterals in German as a second language: A case study. 12. Tagung Phonetik und Phonologie im deutschsprachigen Raum (C. and K. Draxler F. (Eds.), ed.). München Bd. 12 S. 66-69.
  • Hoeschele M. (2019) Novel methodology to assess vocal learning in nature. Animal Learning and Behavior, Bd. 48, S. 1-2.
  • Hoeschele M.; Wagner B.; Mann D.C. (2022) Lessons learned in animal acoustic cognition through comparisons with humans. Animal Cognition.
  • Hoeschele M.; Fitch W.T. (2022) Cultural evolution: Conserved patterns of melodic evolution across musical cultures. Current Biology, Bd. 32/6, S. 265-267.
  • Holighaus N.; Dörfler M.; Velasco G. A.; Grill T. (2013) A Framework for Invertible, Real-Time Constant-Q Transforms. Audio, Speech, and Language Processing, IEEE Transactions on, Bd. 21, S. 775 -785.
  • Holighaus N. (2013) Theory and implementation of adaptive time-frequency transforms. . University of Vienna, .
  • Holighaus N.; Hampejs M.; Wiesmeyr C.; Toth L. (2014) Representing and counting the subgroups of the group Zm x Zn. Journal of Numbers, Bd. 2014, S. online.
  • Holighaus N. (2014) Structure of nonstationary Gabor frames and their dual systems. Applied and Computational Harmonic Analysis, Bd. 37, S. 442-463.
  • Holighaus N.; Wiesmeyr C.; Balazs P. (2015) Time-frequency representations for nonlinear frequency scales - Coorbit spaces and discretization. Inproceedings of SampTA 2015.
  • Holighaus N.; Pr uša Z.; Wiesmeyr C. (2015) Designing tight filter bank frames for nonlinear frequency scales. Inproceedings of SampTA 2015.
  • Holighaus N.; Wiesmeyr C.; Balazs P. (2018) Continuous warped time-frequency representations - Coorbit spaces and discretization. Applied and Computational Harmonic Analysis.
  • Holighaus N.; Koliander G.; Pr uša Z.; Abreu L. D. (2019) Characterization of Analytic Wavelet Transforms and a New Phaseless Reconstruction Algorithm. IEEE Transactions on Signal Processing, Bd. 67, S. 3894-3908.
  • Holighaus N.; Koliander G.; Pr uša Z.; Abreu L. D. (2019) Non-iterative phaseless reconstruction from wavelet transform magnitude. Proceedings of the DAFx19.
  • Holighaus N.; Wiesmeyr C.; Průša Z. (2020) A Class of Warped Filter Bank Frames Tailored to Non-linear Frequency Scales. Journal of Fourier Analysis and Applications, Bd. 26/1, S. 22.
  • Holighaus N.; Voigtlaender F. (2021) Schur-type Banach modules of integral kernels acting on mixed-norm Lebesgue spaces. Journal of Functional Analysis.
  • Holighaus N.; Koliander G.; Hollomey C.; Pillichshammer F. (2023) Grid-Based Decimation for Wavelet Transforms With Stably Invertible Implementation. IEEE/ACM Transactions on Audio, Speech, and Language Processing, Bd. 31, S. 789-801.
  • Hollomey C.; Holighaus N.; Koliander G. (2022) Grid-like wavelet sampling for audio processing applications. Proceedings: A16, Numerical, Computational and Theoretical Acoustics, ICA 2022. Gyeongju S. 208-214.
  • Hollomey C.; Holighaus N.; Balazs P. (2022) Music signal analysis in the Large Time Frequency Analysis Toolbox. Proceedings: A07, Musical Acoustics, ICA 2022. Gyeongju S. 98-104.
  • Hollomey C.; Majdak P.; Baumgartner R. (2022) The Auditory Modeling Toolbox 1.x. Proceedings: A11, Psychoacoustics, ICA 2022. Gyeongju S. 37-40.
  • Hollomey C.; Mejstrik T. (2022) Elektroakustik und Audiosignalverarbeitung 3 TTEST for Matlab and Octave: Unit testing scientific code. Fortschritte der Akustik - DAGA 2022. Stuttgart.
  • Hrycak T.; Schmutzhard S. (2015) A Nicholson-type integral for the cross-product of the Bessel functions. J. Math. Anal. Appl.
  • Hrycak T. (2017) Evaluation of Chebyshev polynomials by a three-term recurrence in floating-point arithmetic. BIT Numerical MathematicsFortschritte in der Akustik, DAGA 2016, Bd. 2017, S. 1-14.
  • Hrycak T.; Schmutzhard S. (2020) Evaluation of Legendre polynomials by a three-term recurrence in floating-point arithmetic. IMA Journal of Numerical Analysis, Bd. 40, S. 587 - 605.
  • Hrycak T.; Schmutzhard S. (2019) Accurate evaluation of Chebyshev polynomials in floating-point arithmetic. BIT Numerical Mathematics, Bd. 59, S. 403 - 416.
  • Hrycak T.; Schmutzhard S. (2019) Inequalities involving Gegenbauer polynomials and their tangent lines. Mathematical Inequalities and Applications, Bd. 22(1), S. 353-360.
  • Huang F.; Balazs P. (2017) Dictionary learning for pitch estimation in speech signals. 2017 IEEE 27th International Workshop on Machine Learning for Signal Processing (MLSP). S. 1-6.
  • Huang F.; Balazs P. (2019) Harmonic-aligned Frame Mask Based on Non-stationary Gabor Transform with Application to Content-dependent Speaker Comparison. Interspeech 2019.
  • Ignatiadis K.; Tóth B.; Baumgartner R. (2020) Behavioral and neural peculiarities of auditory looming perception in humans. Proceedings of Forum Acusticum 2020, Lyon. Lyon S. 907-911.
  • Ignatiadis K.; Baier D.; Tóth B.; Baumgartner R. (2021) Neural mechanisms underlying the auditory looming bias. Auditory Perception & Cognition, S. 1-14.
  • Ignatiadis K.; Barumerli R.; Tóth B.; Baumgartner R. (2022) Benefits of individualized brain anatomies and EEG electrode positions for auditory cortex localization. Frontiers in Neuroinformatics for the special issue "From the Ear to the Brain", Bd. 16, S. 970372.
  • Jaillet F.; Balazs P.; Dörfler M.; Engelputzeder N. (2009) On the structure of the Phase around the Zeros of the Short-Time Fourier Transform. NAG/DAGA 2009 (M. M. Boone, ed.). Rotterdam S. 1584-1587.
  • Jaillet F.; Balazs P.; Dörfler M.; Engelputzeder N. (2009) Nonstationary Gabor Frames. SAMPTA'09. Marseille S. Online.
  • Jaksch M.; Achs G. adn Dinhobl; Waubke H. (2014) Schallabstrahlung bei Hochgeschwindigkeit. Eisenbahntechnische Rundschau Austria, S. 64-69.
  • Jaming Ph.; Negreira F.; Romero J. L. (2021) The Nyquist sampling rate for spiraling curves. Applied and Computational Harmonic Analysis, Bd. 52, S. 198-230.
  • Jenny C.; Majdak P.; Reuter Ch. (2017) Einfluss individueller Schallfilterung in multimodaler virtueller 3D-Darbietung. Fortschritte in der Akustik DAGA. Kiel.
  • Kasess C. H.; Kreuzer W. (2011) Vocal tract modeling: from signal to structure. Analele Universitatii "Eftimie Murgu". Bd. XVIII S. 45-56.
  • Kasess C. H.; Noll A.; Waubke H. (2012) Der Einfluß des Bremssystems von Eisenbahnfahrzeugen auf die wahrgenommene Lästigkeit von Schienenverkehrslärm. DAGA 12. Darmstadt S. 853-854.
  • Kasess C. H.; Kreuzer W.; Enzinger E.; Kerschhofer-Puhalo N. (2012) Estimation of the vocal tract shape of nasals using a Bayesian scheme. INTERSPEECH 2012.. Portland, Oregon Bd. 1 S. 698-701.
  • Kasess C. H.; Noll A.; Majdak P.; Waubke H. (2013) Effect of train type on annoyance and acoustic features of the rolling noise. Journal of the Acoustical Society of America, Bd. 134 (2), S. 1071-1081.
  • Kasess C. H.; Kreuzer W. (2013) Estimation of multiple-branch vocal tract models: the influence of prior assumptions. Proceedings of Interspeech 2013. Lyon, France S. 1663-1667.
  • Kasess C. H.; Noll A.; Waubke H. (2013) Psychoacoustic evaluation of different noise mitigation measures for steel bridges. Proceedings of Internoise 2013. Innsbruck, Austria S. CD-ROM.
  • Kasess C. H.; Maly T.; Majdak P.; Waubke H. (2015) The Effect of Noise Reduction Measures on the Perception of Railway Noise. Internoise 2015. San Francisco S. CD-ROM.
  • Kasess C. H.; Kreuzer W.; Waubke H. (2016) Deriving correction functions to model the efficiency of noise barriers with complex shapes using boundary element simulations. Applied Acoustics, Bd. 102, S. 88 - 99.
  • Kasess C. H.; Waubke H.; Kehrer J.; Dinhobl G.; Maly T. (2015) Psychoakustische Untersuchung von Lärmschutzmaßnahmen. Eisenbahntechnische Rundschau Austria, Bd. 3, S. 64-68.
  • Kasess C. H.; Waubke H.; Wehr R.; Conter M.; Kirisits C.; Ziegelwanger H.; et al. (2016) Effects of source type, position, and train structure on BEM calculations. Inproceedings of the Internoise 2016 (W. Kropp von Estorff, ed.). Hamburg S. 4387-4396.
  • Kasess C. H.; Kreuzer W.; Waubke H. (2016) An efficient quadrature for 2.5D boundary element calculations. Journal of Sound and Vibration, Bd. 382, S. 213-226.
  • Kasess C. H.; Maly T.; Majdak P.; Waubke H. (2017) The relation between psychoacoustical factors and annoyance under different noise reduction conditions for railway noise. The Journal of the Acoustical Society of America, Bd. 141, S. 3151.
  • Kasess C. H. (2017) Time-Frequency Multitaper Methods Applied to Rumble Strip Noise. Proceedings of SampTA (2017). Talinn S. 179-182.
  • Kasess C. H.; Waubke H. (2018) Bouc Hysteresis under White Noise Excitation using Non-linear Mapping and the Beta Distribution. Journal of Theoretical and Computational Acoustics, Special Issue on AFBEM:, Bd. 26.
  • Kasess C. H.; Waubke H. (2019) Moving sources and the 2.5D Helmholtz boundary element method. Proceedings International Congress on Acoustics, 2019. Aachen S. CD-ROM.
  • Kasess C. H.; Waubke H.; Conter M.; Kirisits C.; Wehr R.; Ziegelwanger H. (2019) The effect of railway platforms and platform canopies on sound propagation. Applied Acoustics.
  • Kasess C. H.; Maly T.; Kluger-Eigl W.; Waubke H. (2019) Psychoacoustic evaluation of different rumble strip designs. Proceedings of the Internoise 2019. Madrid S. CD-ROM.
  • Kasess C. H.; Waubke H. (2019) Bouc hysteresis without an elastic restoring force under white noise excitation using the beta distribution. Proceedings in Applied Mathematics and Mechanics. Vienna S. CD-ROM.
  • Kasess C. H.; Reichl C.; Waubke H.; Majdak P. (2020) Perception Rating of the Acoustic Emissions of Heat Pumps. Proceedings Froum Acusticum 2020. Lyon. Lyon S. 2453-2458.
  • Kasess C. H.; Reichl C.; Waubke H. (2020) Beurteilung der Wahrnehmung der Schallemission von Wärmepumpen. Fortschritte in der Akustik DAGA 2020, Hannover. Hannover S. CD-ROM.
  • Kasess C. H.; Maly T.; Majdak P.; Waubke H. (2021) Effects of rumble strip parameters on acoustics, vibration, and perception. Acta Acustica.
  • Kasess C. H.; Maly T.; Balazs P.; Kreuzer W. (2021) Time-variant signal manipulation using frame multipliers. Euronoise, Madeira. Madeira S. 673-682.
  • Kasess C. H.; Maly T.; Waubke H.; Ostermann M.; Dinhobl G. (2021) Speech Intelligibility - Effects of Railway Tunnels at High Speeds. In: Noise and Vibration Mitigation for Rail Transportation Systems.Notes on Numerical Fluid Mechanics and Multidisciplinary Design. Springer, S. 142-149.
  • Kasess C. H.; Maly T.; Kreuzer W. (2022) Modeling of multiple reflections between noise barriers and trains using the boundary element method. Proceedings of the Euregio/BNAM 2022. Aalborg, Denmark. S. 423-432.
  • Kasess C. H.; Maly T.; Kirisits C.; Majdak P.; Waubke H. (2022) Annoyance of railway curve squeal. Proceedings of the Inter.Noise 2022. Glasgow S. 313-320.
  • Kerschhofer-Puhalo N. (2011) Literalität und Illiteralität in der Migration. In: Kalypso und der Schlosser. Basisbildung als Abenteuer im Land des Wissens und Könnens.. LIT-Verlag, Berlin u. a. S. 85-109.
  • Kerschhofer-Puhalo N. (2012) Phonetik und Phonologie im Schriftspracherwerb. ÖDaF-Mitteilungen 2012/1 1 75-85 ÖDaF-MitteilungenAlleinautorIn (10, ed., 344638 and 298,, trans.).
  • Kleinhapl F.; Hagn-Kleinhapl H.; Schmid S.; Goetschl J.; Bertsch M.; Laback B. (2013) The Miracle of the Ear. AVL Cultural Foundation GmbH, Wien.
  • Klingel M. (2017) Der Einfluss der Ähnlichkeit zwischen Hinweis- und Zielreiz in einem auditiven Hinweisreizparadigma. . Universität Wien, .
  • Klingel M.; Spišäk O.; Seitz A.; Kopčo N. (2020) Reweighting of binaural localization cues induced by discrimination training. Proceedings of Forum Acusticum 2020. Lyon.
  • Klingel M.; Laback B. (2020) Vision-induced reweighting of binaural localization cues in electric hearing. Proceedings of Forum Acusticum 2020, Lyon. Lyon S. 1945-1952.
  • Klingel M.; Kopčo N.; Laback B. (2021) Reweighting of Binaural Localization Cues Induced by Lateralization Training. J. Assoc. for Research in Otolaryngology.
  • Klingel M.; Laback B. (2021) Reweighting of binaural localization cues in bilateral cochlear-implant listeners. Journal of the Association for Research in Otolaryngology.
  • Klingel M.; Laback B. (2022) Binaural-cue weighting and training-induced reweighting across frequencies. Trends in Hearing, Bd. 26.
  • Klingel M. (2022) Reweighting of Binaural Cues: Generalizability and Applications in Cochlear Implant Listening. . Universität Wien, Wien.
  • Klingler N. (2016) Der Einfluss der F0-Kontur als akustischer cue auf die Perzeption chinesischer Deutschlerner in konkurrierenden Kontexten. 12. Tagung Phonetik und Phonologie im deutschsprachigen Raum (C. and K. Draxler F. (Eds.), ed.). München S. 94-97.
  • Klingler N.; Moosmüller S.; Scheutz H. (2017) Vowel and Consonant Sequences in three Bavarian Dialects of Austria. Proceedings Interspeech 2017. Stockholm S. 2983-2987.
  • Klingler N.; Moosmüller S. (2018) Der Einfluss der Sprechgeschwindigkeit auf die Produktion von Einsilbern mit initialen und finalen Konsonantenclustern in zwei Varietäten Wiens. Proceedings of the Conference on Phonetics & Phonology in German-speaking countries (P&P 13). Berlin S. 109-112.
  • Klingler N. (2017) The perception of the German word accent by Mandarin L1-speakers. Grazer Linguistische Studien, S. 5-23.
  • Klingler N.; Kleber F.; Jochim M.; Pucher M.; Schmid S.; Zihlmann U. (2019) Temporal organization of vowel plus stop sequences in production and perception: Evidence from the three major varieties of German. Proceedings of the 19th International Congress of Phonetic Sciences, Melbourne, Australia 2019 (ICPhS 2019). Melbourne S. 825-829.
  • Klingler N. (2021) Timing of Vowel and Consonant Sequences in two Varieties of Vienna. . Universität Wien, Wien.
  • Koch O.; Kreuzer W.; Scrinzi A. (2006) Approximation of the Time-Dependent Electronic Schrödinger Equation by MCTDHF. Applied Mathematics and Computation, Bd. 173/2, S. 960-976.
  • Köhldorfer L. (2021) Fusions Frames and Operators. . University of Vienna, MA Thesis, .
  • Koliander G.; Schuhmacher D.; Hlawatsch F. (2018) Rate-Distortion Theory of Finite Point Processes. IEEE Transactions on Information Theory, Bd. 64, S. 5832-5861.
  • Koliander G.; Abreu L. D.; Haimi A.; Romero J. L. (2019) Filtering the continuous wavelet transform using hyperbolic triangulations. Proc. Int. Conf. Samp. Theory and Appl. (SampTA-19). Bordeaux, France.
  • Koliander G.; Pichler G. (2020) Modelling the Utility of Group Testing for Public Health Surveillance. Biometrika.
  • Koliander G.; Pichler G. (2021) Modelling the Utility of Group Testing for Public Health Surveillance. Infectious Disease Modelling.
  • Koliander G.; El-Laham Y.; Djurić P.M.; Hlawatsch F. (2022) Fusion of Probability Density Functions. Proceedings of the IEEEProceedings of the IEEE, Bd. 110/4, S. 404-453.
  • Kratochvil H.; Noll A.; Bolldorf J.; Parker A.G. (2012) Acoustic method for testing the quality of sterilized male tsetse flies (Glossina pallidipes). In: IAEA-TECDOC-1683.. IAEO, .
  • Kreuzer W.; Balazs P.; Waubke H. (2006) Ein 3D-Modell zur Berechnung der Ausbreitung von Erschütterungen in Bodenschichten, Tagungsband, DAGA 2006. Braunschweig 2006. .
  • Kreuzer W.; Balazs P.; Waubke H. (2006) A 3D-stochastic model for simulating the propagation of waves in soil layers. .
  • Kreuzer W.; Chen Z. (2007) A Fast Multipole Boundary Element Method for calculating HRTFs. Proceedings of the 122nd AES Convention.
  • Kreuzer W.; Chen Z.; Waubke H. (2007) Simulation des Schalldrucks am Kopf mit Hilfe von BEM und Fast Multiple Methode. Fortschritte der Akustik, 33. Jahrestagung für Akustik, DAGA07 (DEGA, tran.).
  • Kreuzer W.; Waubke H. (2008) Modell eines Tunnels in einer orthotropen Halbraumschicht. Fortschritte in der Akustik - Daga 08 (DAGA, ed.).
  • Kreuzer W.; Waubke H. (2008) A BEM model of a tunnel in an orthotropic medium. . Daejon.
  • Kreuzer W.; Majdak P.; Haider A. (2009) A boundary element model to calculate HRTFs. Comparison between calculated and measured data. NAG/DAGA 2009 (M. M. Boone, ed.). Rotterdam S. 196-199.
  • Kreuzer W.; Majdak P.; Chen Z. (2009) Fast multipole boundary element method to calculate head-related transfer functions for a wide frequency range. J. Acoust .Soc. Am., Bd. 126, S. 1280-1290.
  • Kreuzer W.; Rieckh G.; Waubke H. (2010) BEM in anisotropic layered media. Theoretical and compuational acoustics 2009 (S. Marburg, ed.). Dresden S. 207-216.
  • Kreuzer W.; Balazs B.; Marelli D. (2011) Vokaltraktmodellierung unter Verwendung eines Pol-Nullstellen Modells. DAGA 2011. Düsseldorf S. 283-284.
  • Kreuzer W.; Waubke H.; Rieckh G.; Balazs P. (2011) A 3D model to simulate vibrations in a layered medium with stochastic material parameters. J. Comput. Acoust., Bd. 19, S. 139 - 154.
  • Kreuzer W.; Chen Z.-S.; Waubke H (2012) Formulierung der Randelementemethode für akustische Probleme im Zeitbereich. DAGA12. Darmstadt S. 177-178.
  • Kreuzer W.; Kasess C.H. (2015) Tuning of vocal tract model parameters for nasals using sensitivty functions. J. Acoust. Soc. Am., Bd. 137, S. 1021-1031.
  • Kreuzer W.; Hrycak T.; Weimar M. (2016) Wavelet und Frame Techniken für BEM in der Akustik. Fortschritte in der Akustik, DAGA 2016. Aachen S. 855-858.
  • Kreuzer W.; Brand J. (2017) B-Splines und Frames. Fortschritte in der Akustik (DAGA 2017). Kiel S. 711-714.
  • Kreuzer W. (2019) Using B-spline frames to represent solutions of acoustics scattering problems. Journal of Computational and Applied Mathematics, Bd. 351, S. 331-343.
  • Kreuzer W.; Weber V. (2019) BEM-simulation of tubes using thin elements. Proceedings in Applied Mathematics & Mechanics. Wiley, .
  • Kreuzer W. (2019) Using B-spline frames to represent solutions of acoustics scattering problems. 14th International Conference on Mathematical and Numerical Aspects of Wave Propagation. Book of Abstracts. (M. Kaltenbacher, Melenk, J. M., and Nannen, L., eds.).
  • Kreuzer W.; Weber V. (2019) BEM Simulation of tube acoustics using thin elements. Proceedings of the 23rd International Congress on Acoustics. Aachen.
  • Kreuzer W.; Pollack K.; Majdak P.; Brinkmann F. (2022) Mesh2HRTF / NumCalc: An Open-Source Project to CalculateHRTFs and wave scattering in 3D. Proceedings of the Euroregio/BNAM 2022. Aalborg, Denmark S. 443-452.
  • Kreuzer W. (2022) Numerical simulation of sound propagation in and around ducts using thin boundary elements. Journal of Sound and Vibration, Bd. 534, S. 117050.
  • Kreuzer W.; Brinkmann F.; Pollack K.; Majdak P. (2022) MeMesh2HRTF/NumCalc: Ein quelloffenes Paket zur Berechnung von HRTFs und akustischer Wellenausbreitung in 3D. Fortschritte der Akustik - DAGA 2022. Stuttgart.
  • Laback B.; Majdak P.; Baumgartner W.D. (2005) Interaural Time Differences in Fine Structure, Onset, and Offset in Bilateral Electrical Hearing: Effects of Stimulus Duration. .
  • Laback B.; Majdak P.; Baumgartner W.D. (2005) Interaural Time Differences in Fine Structure and Envelope in Bilateral Electrical and Acoustical Hearing. .
  • Laback B.; Majdak P.; Baumgartner W.D. (2007) Lateralization discrimination of interaural time delays in four-pulse sequences in electric and acoustic hearing. J. Acoust. Soc. Am., S. 2182-2191.
  • Laback B.; Majdak P. (2007) Effect of center frequency on the sensitivity to interaural time differences in filtered pulse trains. DAGA 2007 (DEGA, ed.).
  • Laback B.; Balazs P.; Toupin G.; Necciari T.; Savel S.; Meunier S.; et al. (2008) Additivity of auditory masking using Gaussian-shaped tones. . S. 3889-3894.
  • Laback B.; Majdak P. (2008) Binaural jitter improves interaural time difference sensitivity of cochlear implantees at high pulse rates. Proc. Natl. Acad. Sci. U S A (PNAS), Bd. 105, S. 814-817.
  • Laback B.; Majdak P. (2008) Reply to van Hoesel: Binaural jitter with cochlear implants, improved interaural time-delay sensitivity, and normal hearing. Proc. Natl. Acad. Sci. USA (PNAS), Bd. 105, S. E51.
  • Laback B.; Majdak P.; Goupell M. (2008) Binaural jitter improves ITD sensitivity of cochlear implantees and normal hearing listeners. Fortschritte in der Akustik, DAGA 08, Dresden. Dresden.
  • Laback B.; Zimmermann I.; Majdak P. (2009) Perception of Interaural Time Differences in Electric and Acoustic Hearing. ISAAR 09. Helsingör S. CD-ROM.
  • Laback B. (2011) Spektrale und zeitliche Aspekte der Klangfarbenwahrnehmung. Neue Einblicke durch Cochleaimplantat-Träger? Vergleichende Musikwissenschaften. Peter Lang Internationaler Verlag der Wissenschaften, Frankfurt am Main Bd. 6 S. 83-99.
  • Laback B.; Balazs P.; Necciari T.; Savel S.; Ystad S.; Meunier S.; et al. (2011) Additivity of nonsimultaneous masking for short Gaussian-shaped sinusoids. Journal of the Acoustical Society of America, Bd. 129, S. 888-897.
  • Laback B.; Zimmermann I.; Majdak P.; Baumgartner W.; Pok S. M. (2011) Effects of envelope shape on interaural envelope delay sensitivity in acoustic and electric hearing. Journal of the Acoustical Society of America, Bd. 130, S. 1515-1529.
  • Laback B. (2012) Neural Basis of Improved ITD Sensitivity with Jitter. Focus on "Neural ITD coding with bilateral cochlar implants: Effect of binaurally-coherent jitter". Journal of Neurophysiology, Bd. 108, S. 712-713.
  • Laback B.; Necciari T.; Balazs P.; Savel S.; Ystad S. (2013) Simultaneous masking additivity for short Gaussian-shaped tones: Spectral effects. Journal of the Acoustical Society of America, Bd. 134, S. 1160-1171.
  • Laback B. (2013) The Psychophysical Bases of Spatial Hearing in Acoustic and Electric Stimulation. . Cumulative habilitation treatise, University of Vienna, .
  • Laback B.; Egger K.; Majdak P. (2015) Perception and Coding of Interaural Time Differences with Bilateral Cochlear Implants. Hearing Research, Bd. 322, S. 138-150.
  • Laback B.; Dietz M.; Joris P. (2017) Temporal effects in interaural and sequential level difference perception. The Journal of the Acoustical Society of America, Bd. 142(5), S. 3267-3283.
  • Laback B.; Srinivasan S.; Lindenbeck M.; Ferber M.; Majdak P. (2018) Towards increasing timing sensitivity in electric hearing. . Acoustical Society of America (ASA), Minneapolis, MN Bd. 143 S. 1785.
  • Laback B. et al. (2019) Lärmreduktion in elementaren Bildungseinrichtungen. .
  • Laback B. (2020) “Peripheral and Central Factors in Contextual Lateralization based on Interaural Level Difference. Proceedings of Forum Acusticum 2020, Lyon. Lyon S. 1287-1294.
  • Laback B. (2021) Effects of Non-Linear Peripheral Processing Stages on Contextual Interaural-Level-Difference Coding. Proceedings of Forum Acusticum. Lyon.
  • Leblanc A.; Chardon G. (2014) Acoustic eigenanalysis of 2D open cavity with Vekua approximations and the Method of Particular Solutions. Engineering Analysis with Boundary Elements, Bd. 43, S. 30-36.
  • Leykum H.; Moosmüller S.; Dressler W. U. (2015) Word-final (mor-) phonotactic consonant clusters in standard Austrian German. Proceedings of the 18th International Congress of Phonetic Sciences (ICPhS 2015). Glasgow, Scottland.
  • Leykum H.; Moosmüller S.; Dressler W. U. (2015) Homophonous phonotactic and morphonotactic consonant clusters in word-final position. Proceedings of Interspeech 2015. Dresden, Germany.
  • Leykum H.; Moosmüller S. (2016) (Mor-)phonotactic consonant clusters in Standard Austrian German and Standard German German. 12.Tagung Phonetik und Phonologie im deutschsprachigen Raum (C. and K. Draxler F. (Eds.), ed.). München S. 103-106.
  • Leykum H.; Moosmüller S. (2018) Factors influencing the realisation of word-final /t/ in Standard Austrian German and Standard German German. Proceedings of the Conference on Phonetics & Phonology in German-speaking countries (P&P 13). Berlin S. 117-120.
  • Leykum H.; Moosmüller S. (2019) Phonotaktische und morphonotaktische Konsonantencluster in wortmedialer Position in der österreichischen Standardaussprache. In: Dimensionen des sprachlichen Raums. Variation - Mehrsprachigkeit - Konzeptualisierung.. Peter Lang, S. 127-145.
  • Leykum H. (2019) Acoustic Characteristics of Verbal Irony in Standard Austrian German. Proceedings of the 19th International Congress of Phonetic Sciences (ICPhS 2019) (S. Calhoun, Escudero, P., Tabain, M., and Warren, P., eds.). Melbourne, Australia S. online.
  • Leykum H. (2020) A pilot study on the diversity in irony production and irony perception. In: Diversity of Irony.. De Gruyter Mouton, S. 278-304.
  • Leykum H. (2020) Voice quality of ironic utterances in Standard Austrian German: preliminary results. Proceedings of the Conference "Phonetics and Phonology in the German Language Area" (P&P14). S. 94-98.
  • Leykum H. (2020) F0 contours of ironic and literal utterances. Proceedings of the Phonetics and Speech Technology Workshop (ÖLT2018). S. 73-83.
  • Leykum H. (2021) Voice Quality in Verbal Irony: Electroglottographic Analyses of Ironic Utterances in Standard Austrian German. Proceedings of Interspeech 2021. S. 991-995.
  • Leykum H.; Moosmüller S. (2022) Morphonotactics in speech production. In: Experimental and Acquisitional Approaches to the Study of Morphonotactics.. Verlag der Österreichischen Akademie der Wissenschaften, Wien.
  • Li S.; Baumgartner R.; Peissig J. (2020) Modeling perceived externalization of a static, lateral sound image. Acta Acustica, Bd. 4, S. 21.
  • Lindenbeck M. (2018) Temporal Pitch in Electric Hearing with Short-Interpulse-Interval Stimulation. . Universität für Musik und darstellende Kunst, Graz S. 858.
  • Lindenbeck M.; Majdak P.; Laback B. (2019) Binaural processing in a new cochlear-implant stimulation paradigm inserting extra pulses with short inter-pulse intervals. Proceedings of the ICA 2019 and EAA Euroregio (M. Ochmann, Vorlaender, M., and Fels, J., eds.). German Acoustical Society (DEGA), Berlin, Germany S. 2202-2209.
  • Lindenbeck M.; Laback B.; Majdak P.; Srinivasan S. (2020) Temporal-pitch sensitivity in electric hearing with amplitude modulation and inserted pulses with short inter-pulse intervals. The Journal of the Acoustical Society of America, Bd. 147, S. 777-793.
  • Lindenbeck M.; Majdak P.; Laback B. (2022) Channel interactions have less impact on temporal-pitch than ITD sensitivity in dual-electrode cochlear implant stimulation. 19th International Symposium on Hearing (ISH). Lyon, France.
  • Liuni M. (2011) Sound Analysis and Synthesis Adaptive in Time and Two Frequency Bands. Proc. of the 14th Int. Conference on Digital Audio Effects (DAFx-11), Paris, France, September 19-23Proc. of the 14th Int. Conference on Digital Audio Effects (DAFx-11). Paris.
  • Liuni M.; Balazs P.; Röbel A. (2011) Sound Analysis and Synthesis Adaptive in Time and Two Frequency Bands. Proc. of the 14th Int. Conference on Digital Audio Effects (DAFx-11), Paris, France, September 19-23. Bd. accepted.
  • Liutkus A.; Martina D.; Popoff S.; Chardon G.; Katz O.; Lerosey G.; et al. (2014) Imaging With Nature: Compressive Imaging Using a Multiply Scattering Medium. Scientific Reports, Bd. 4, S. online.
  • Llompart M.; Reinisch E. (2020) The phonological form of lexical items modulates the encoding of challenging second-language sound contrasts. Journal of Experimental Psychology: Learning, Memory, and Cognition, Bd. 46(8), S. 1590-1610.
  • Llompart M.; Reinisch E. (2021) Lexical representations can rapidly be updated in the early stages of second-language word learning. Journal of Phonetics, Bd. 88, S. 101080.
  • Llompart M.; Eger N.; Reinisch E. (2021) Free allophonic variation in native and second-language spoken word recognition: the case of the German rhotic. Frontiers in Psychology: Language Sciences, Bd. 12, S. 711230.
  • Loibl L. M. (2008) Lay Theories of Suicide: Test-Restest Reliability and further validation of lester and Bean's Atrribution of Causes to suicide scale. .
  • Lozo C.; Luttenberger J.; Pucher M. (2019) The thought collective behind thirty years of progress in speech synthesis. 3rd Workshop of History of Speech Communication Research.
  • Lozo C.; Pucher M. (2020) Revisiting nonstandard variety TTS and its evaluation in Austria. Proceedings of the Phonetics and Speech Technology Workshop (ÖLT2018). S. 34-44.
  • Lozo C.; Pucher M. (2020) Revisiting nonstandard variety TTS and its evaluation in Austria. The Phonetician, Bd. 117, S. 34-44.
  • Luttenberger J. (2017) Vom Spiel zur Story. Usergenerierte computerspielbasierte Textgenres als Teil der Populärkultur. . Universität Wien, Institut für Sprachwissenschaft, .
  • Luttenberger J.; Fanta-Jende J. (2020) "Viennese" Monophthongs: present - marked - given? On Intra-individual Variation of the Realization of /ae/ and /ao/ Diphthongs in Standard German Pronunciation in rural Austria. Proceedings of the Phonetics and Speech Technology Workshop (ÖLT2018). S. 45-58.
  • Luttenberger J.; Weihs N.; Pucher M. (2021) L-Velarization in Austrian German dialect. Proceedings of the NWAV49. Austin.
  • Majdak P.; Laback B.; Baumgartner W.D. (2005) Interaural Time Differences in Temporal Fine Structure, Onset, and Offset in Bilateral Electrical Hearing. .
  • Majdak P.; Laback B.; Baumgartner W.-D. (2006) Effects of interaural time differences in fine structure and envelope on lateral discrimination in electrical hearing. Journal of the Acoustical Society of America, Bd. 120, S. 2190-2201.
  • Majdak P.; Laback B.; Balazs P. (2007) Multiple Exponential Sweep Method for Fast Measurement of Head Related Transfer Functions. Journal of the Acoustical Engineering Society (Journal of the Acoustical Engineering Society, ed.), Bd. No. 7/8, S. 623-637.
  • Majdak P.; Laback B.; Goupell M.; Mihocic M. (2008) The Accuracy of Localizing virtual Sound Sources: Effects of Pointing Method and Visual Environment. .
  • Majdak P. (2008) Lateralization of sounds based on interaural time differences in cochlear-implant listeners. . Graz.
  • Majdak P.; Laback B. (2009) Effects of center frequency and rate on the sensitivity to interaural delay in high-frequency click trains. J Acoust Soc Am, Bd. 125, S. 3903-3913.
  • Majdak P.; Goupell M.; Laback B. (2010) 3-D localization of virtual sound sources: Effects of visual environment, pointing method, and training. Attention, Perception & Psychophysics, Bd. 72, S. 454-469.
  • Majdak P (2011) Two-dimensional localization of virtual sound sources in cochlear-implant listeners. , Bd. 32, S. 198-208.
  • Majdak P.; Balazs P.; Kreuzer W.; Dörfler M. (2011) A time-frequency method for increasing the signal-to-noise ratio in system identification with exponential sweeps. 2011 IEEE International Conference on Acoustics, Speech, and Signal Processing. Prag S. 3812-3815.
  • Majdak P.; Masiero B.; Fels J. (2013) Sound localization in individualized and non-individualized crosstalk cancellation systems. Journal of the Acoustical Society of America, Bd. 133, S. 2055-2068.
  • Majdak P.; Ziegelwanger H. (2013) Continuous-direction model of the broadband time-of-arrival in the head-related transfer functions. Proceedings of the 21st International Congress on Acoustics (ICA), POMA. Montreal, Canada Bd. 19 S. pp. 050016.
  • Majdak P.; Walder T.; Laback B. (2013) Effect of long-term training on sound localization performance with spectrally warped and band-limited head-related transfer functions. Journal of the Acoustical Society of America, Bd. 134, S. 2148-2159.
  • Majdak P.; Carpentier Th.; Nicol R.; Roginska A.; Suzuki Y.; Watanabe K.; et al. (2013) Spatially Oriented Format for Acoustics: A Data Exchange Format Representing Head-Related Transfer Functions. Proceedings of 134th Convention of the Audio Engineering Society (AES). Rome, Italy S. Convention Paper 8880.
  • Majdak P.; Baumgartner R.; Laback B. (2014) Acoustic and non-acoustic factors in modeling listener-specific performance of sagittal-plane sound localization. Frontiers in Psychology, Bd. 5, S. 319(1-10).
  • Majdak P.; Ziegelwanger H.; Wierstorf H.; Noisternig M. (2014) Efficient representation of head-related transfer functions using spatially oriented format for acoustics. Proceedings of the 21st International Congress on Sound and Vibration (ICSV). Beijing, China.
  • Majdak P.; Baumgartner R.; Laback B. (2014) Sound Localization Beyond the Horizontal Plane. AES 55th International Conference. S. CD-ROM.
  • Majdak P.; Stöger H. (2017) Reproduzierbare Forschung: auditorische Daten und Modelle. Fortschritte in der Akustik (DAGA 2017). Kiel.
  • Majdak P.; Baumgartner R.; Jenny C. (2020) Formation of three-dimensional auditory space. In: The Technology of Binaural Understanding.. Springer, Cham, S. 115-149.
  • Majdak P.; Kreuzer W.; Baumgartner R.; Mihocic M.; Reichinger A. (2019) Method for determining listener-specific head-related transfer functions. .
  • Majdak P.; Hollomey C.; Baumgartner R. (2022) AMT 1.x: A toolbox for reproducible research in auditory modeling,. Acta AcusticaActa Acustica, Bd. 6/19, S. 1-17.
  • 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 Engineering Soc., Bd. 70/7/8, S. 565-584.
  • Maly T.; Kasess C.; Waubke H.; Kehrer J.; Dinhobl G. (2015) Psychoakustische Untersuchung von Lärmschutzmaßnahmen. Schriftenreihe Nr. 78, 13. Wiener Eisenbahnkolloquium. S. 47-54.
  • Maly T.; Kasess C. H.; Kluger-Eigl W.; Waubke H. (2018) Psychoakustische Untersuchungen verschiedener Rumpelstreifenausführungen. Fortschritte in der Akustik (DAGA 2018). München S. 373-376.
  • Mann D.; Hoeschele M (2020) Segmental units in non-human animal vocalization as a window into meaning, structure, and the evolution of language. Animal Behavior and Cognition - special issue on "Communication in Nonhumans", Bd. 7, S. 151-158.
  • Mann D.; Fitch W. T.; Tu H.; Hoeschele M. (2021) Universal principles underlying segmental structures in parrot song and human speech. Scientific Reports, Bd. 11.
  • Marafioti A.; Holighaus N.; Majdak P.; Perraudin N. (2019) Audio inpainting of music by means of neural networks. 146th Convention of the Audio Engineering Society. Dublin.
  • Marafioti A.; Perraudin N.; Holighaus N.; Majdak P. (2019) Adversarial Generation of Time-Frequency Features with application in audio synthesis. Proceedings of the 36th International Conference on Machine LearningProceedings of Machine Learning Research (K. Chaudhuri and Salakhutdinov, R., eds.). PMLR, Long Beach, California, USA Bd. 97 S. 4352-4362.
  • Marafioti A.; Perraudin N.; Holighaus N.; Majdak P. (2019) A context encoder for audio inpainting. . Bd. 27 Issue 12 S. 2362 - 2372.
  • Marafioti A.; Majdak P.; Holighaus N.; Perraudin N. (2020) GACELA - A generative adversarial context encoder for long audio inpainting. IEEE Journal of Selected Topics in Signal Processing, S. 120-131.
  • Marafioti A.; Holighaus N.; Majdak P. (2021) Time-Frequency Phase Retrieval for Audio - The Effect of Transform Parameters. .
  • Marafioti A. (2021) Exemplar-based audio inpainting in musical signals. . Kunstuniversität Graz, Graz.
  • Marconi M. A.; Nicolakis D.; Abbasi R. and. Penn; Zala S. M. (2020) Ultrasonic courtship vocalizations of male house mice contain distinct individual signatures. Animal Behaviour, Bd. 169, S. 169-197.
  • Marelli D.; Balazs P. (2007) A Zero-Pole Vocal Track Model Estimation Method for Noisy Speech Signals. .
  • Marelli D.; Fu M.; Balazs P.; Majdak P. (2008) An Iterative Method for Approximating LTI Systems using Subbands. .
  • Marelli D.; Balazs P. (2010) On Pole-Zero Model Estimation Methods Minimizing a Logarithmic Criterion for Speech Analysis. IEEE Transactions on Audio, Speech and Language Processing, Bd. 18/2, S. 237-248.
  • Marelli D.; Fu M. (2014) Asymptotic opimality of the maximum-lieklihood filter for Bayesian tracking in sensor networks. 19th World Congress, The International Federation of Automatic Control (IFAC). Cape Town, South Africa S. 7400-7405.
  • Marelli D.; Fu M. (2014) Distributed Weighted Linear Least Squares Estimation with Fast Convergence in Large-scale Systems. Automatica, Bd. 51, S. 27-39.
  • Marelli D.; Baumgartner R.; Majdak P. (2014) Efficient Representation of Head-Related Transfer Functions in Subbands. 2014 Proceedings of the 22nd European Signal Processing Conference (EUSIPCO).
  • Marelli D.; Baumgartner R.; Majdak P. (2015) Efficient Approximation of Head-Related Transfer Functions in Subbands for Accurate Sound Localization. IEEE/ACM Transactions on Audio, Speech, and Language Processing, Bd. 23, S. 1130-1143.
  • McLachlan G; Peremans H. (2021) Towards modelling active sound localisation based on Bayesian inference in a static environment. Acta Acustica.
  • McLachlan G.; Majdak P.; Reijniers J.; Mihocic M.; Peremans H. (2023) Dynamic spectral cues do not affect human sound localization during small head movements. Frontiers in Neuroscience, Bd. 17, S. 102782.
  • Mignot R.; Chardon G.; Daudet L. (2013) Low Frequency Interpolation of Room Impulse Responses Using Compressed Sensing. Audio, Speech, and Language Processing, IEEE/ACM Transactions on, Bd. 22, S. 205-216.
  • Mihocic Michael (2005) Ortung akustischer Quellen mittels eines Vielkanal-Messsystems/ÖBB300. . FH Technikum Wien, Wien.
  • Mihocic M. (2014) ExpSuite: Open Source-Framework zur Durchführung psychoakustischer Experimente und akustischer Messungen. . Wien.
  • Mitterer H.; Eger N. A.; Reinisch E. (2020) My English sounds better than yours: Second-language learners perceive their own accent as better than that of their peers. PLoS ONE, Bd. 15(2), S. e0227643.
  • Moosmüller S. (2006) Some Relevant Aspects of Vowel Formant Interpretation. .
  • Moosmüller S. (2007) Phonetics needs Phonology. In: Lingvističeskaja polifonija. Sbornik v čest' jubileja professora R.K. Potapovoj. Hrsg,: V.A. Vinogradov. Moskau: Jazyki slavjanskich kul'tur: 2007.. S. 488-503.
  • Moosmüller S. (2007) Vowels in Standard Austrian German. Habilitationsschrift. . Wien.
  • Moosmüller S. (2007) When does lip protrusion start in Standard Austrian German? An acoustic investigation. Proceedings of the 16th international Congress of Phonetic Sciences. S. 557-560.
  • Moosmüller S. (2008) Interaction of phonetics, phonology, and sociophonology - illustrated by the vowels of Standard Austrian German. Proceedings of ISCA Tutorial and Research Workshop on Experimental Linguistics. Athen.
  • Moosmüller S. (2008) The Importance of Phonology for Phonetics. Grazer Linguistische Studien, Bd. 67/68, S. 191-204.
  • Moosmüller S. (2011) Sound changes and variation in the Viennese dialect. In: On Words and Sounds: A selection of papers fromt the 40th PLM, 2009.. Cambridge Scholars Publishing, S. 134-147.
  • Moosmüller S. (2010) Die vorderen Vokale des Wiener Dialekts. In: Fokus Dialekt. Analysieren - Dokumentieren - Kommunizieren. Festschrift für Ingeborg Geyer zum 60. Geburtstag.Germanistische Linguistik. Olms, Hildesheim S. 279-288.
  • Moosmüller S. (2010) The IAFPA Position on Language Analysis in Asylum Procedures. In: Language and Origin: The Role of Language in European Asylum Procedures: A Linquistic and Legal Survey.. Nijmegen: Wolf Legal Publishers, S. 43-47.
  • Moosmüller S. (2010) Stereotyping the Viennese Dialect. In: Diskurs-Politik-Identität. Festschrift für Ruth Wodak.. Stauffenburg Verlag, Tübingen S. 401-408.
  • Moosmüller S.; Scheutz H. (2013) Der Vokalismus in den Stadtdialekten von Salzburg und Wien zwischen Monophthongierung und E-Verwirrung: Eine phonetische Studie. Strömungen in der Entwicklung der Dialekte und Ihrer Erforschung. Beiträge zur 11. Bayerisch-österreichischen Dialektologentagung, Passau (R. Harnisch, ed.). edition vulpes, S. 83-89.
  • Moosmüller S. (2012) The roles of stereotypes, phonetic knowledge, and phonological knowledge in the evaluation of dialect authenticity. Proceedings of the Workshop "Sociophonetics and the cross-roads of speech variation, processing and communication" (S. Calamai, Celata, C., and Ciucci, L., eds.). Edizione della Normale, Pisa, December 14th-15th, 2010 S. 49-52.
  • Moosmüller S. (2011) Evaluation of the speech behaviour of reference speakers. International Journal of Speech, Language and the Law, Bd. 18 (2), S. 179-205.
  • Moosmüller S. (2011) Aussprachevarianten in Österreichischen Standarddeutsch. In: Interpersonelle Kommunikation: Analyse und Optimierung.. Peter Lang, Frankfurt am Main S. 193-199.
  • Moosmüller S. (2013) Chain shifts revisited: The case of Monophthongisation and E-confusion in the city dialects of Salzburg and Vienna. In: Language variation - European Perspectives IV.. Benjamins, Amsterdam S. 173-186.
  • Moosmüller S. (2014) Phonotactic information in the temporal organization of Standard Austrian German and the Viennese dialect. Language Sciences, Bd. 46, S. 84-95.
  • Moosmüller S. (2015) Methodisches zur Bestimmung der Standardausprache in Österreich. In: Standarddeutsch in Österreich - Theoretische und empirische Ansätze.Wiener Arbeiten zur Linguistik. Vandenhoeck & Ruprecht, Wien S. 163-182.
  • Moosmüller S. (2016) The Strength of Stereotypes in the Production and Perception of the Viennese Dark Lateral. In: Cityscapes and Perceptual Dialectology: Global perspectives on non - linguists" knowledge of the dialect landscape.. de Gruyter Mouton, Boston/Berlin S. 121-138.
  • Moosmüller S. (2015) The Interaction of temporal organization and phonotactics: Resyllabification in three varieties of German. Italian Journal of Linguistics, Bd. 27, S. 111-132.
  • Moosmüller S. (2015) Methodisches zur Bestimmung der Standardprache in Österreich. In: Standarddeutsch in Österreich - Theoretische und empirische Ansätze.Wiener Arbeiten zur Linguistik. Vandenhoeck und Ruprecht, Wien S. 163 - 182.
  • Moosmüller S. (2014) Vokale und Diphthonge der österreichischen Standardaussprache. Germanistik in der Ukraine, Bd. 9, S. 146-155.
  • Moosmüller S.; Brandstätter J. (2014) Phonotactic information in the temporal organization of Standard Austrian German and the Viennese dialect. Language Sciences, Bd. 46, S. 84-95.
  • Moosmüller S.; Schmid C.; Brandstätter J. (2015) Standard Austrian German. Journal of the International Phonetic Association, S. 339-348.
  • Moosmüller S. (2010) Die vorderen Vokale des Wiener Dialekts. In: Fokus Dialekt. Analysieren - Dokumentieren - Kommunizieren. Festschrift für Ingeborg Geyer zum 60. Geburtstag.Germanistische Linguistik. Olms, Hildesheim S. 279-288.
  • Moosmüller S. (2010) Stereotyping the Viennese Dialect. In: Diskurs-Politik-Identität. Festschrift für Ruth Wodak.. Stauffenburg Verlag, Tübingen S. 401-408.
  • Moosmüller S. (2011) Aussprachevarianten in Österreichischen Standarddeutsch. In: Interpersonelle Kommunikation: Analyse und Optimierung.. Peter Lang, Frankfurt am Main S. 193-199.
  • Moosmüller S.; Scheutz H. (2013) Chain shifts revisited: The case of Monophthongisation and E-confusion in the city dialects of Salzburg and Vienna. In: Language variation - European Perspectives IV.. Benjamins, Amsterdam S. 173-186.
  • Moosmüller S. (2016) Alveolar and Velarized Laterals in Albanian and in the Viennese Dialect. Language and Speech, Bd. 59, S. 488-514.
  • Moosmüller S.; Schmid C.; Kasess C. H. (2016) Alveolar and Velarized Laterals in Albanian and in the Viennese Dialect. Language and Speech 59, Bd. 59, S. 488-514.
  • Moosmüller S. (2017) Kleine Geschichte der Phonetik in Österreich. In: Phonetik in und über Österreich.. Verlag der Österreichischen Akademie der Wissenschaften, Wien S. 7-13.
  • Moosmüller S.; Scheutz H. (2018) Lenis/Fortis - komplementäre Länge - Isochronie: Der (un)gelöste mittelbairische Kopplungsknoten. In: Worte über Wörter. Eine Festschrift zu Ehren von Elke Ronneberger-Sibold.. Stauffenburg, Tübingen S. 339-360.
  • Moosmüller S. (2020) On the representation of vowels. The Phonetician, S. 4-26.
  • Moser A.-M.; Vergeiner P.C.; Weihs N.; Luttenberger J. (2022) Das »Hianzische« aus empirischer Sicht. Zu Sprachvariation und -wandel im Burgenland. Wiener Linguistische Gazette (WLG), Bd. 91, S. 68-93.
  • Mossmüller S.; Granser T. (2006) The Spread of Standard Albanian - an Illustration based on an Analysis of Vowels. .
  • Necciari T. (2010) Auditory time-frequency masking: Psychoacoustical measures and application to the analysis-synthesis of sound signals. . University of Provence Aix-Marseille~I, France.
  • Necciari T.; Balazs P.; Holighaus N.; Sondergaard P. (2013) The ERBlet transform: An auditory-based time-frequency representation with perfect reconstruction. Proceedings of the 38th International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2013). Vancouver, Canada S. 498-502.
  • Necciari T.; Laback B. (2015) Effect of cueing on stability of behavioral measurements of basilar membrane responses with a precursor (Abstract). 169th Meeting of the ASA. Pittsburgh, PA, USA Bd. 137.
  • Necciari T.; Laback B.; Savel S.; Ystad S. l.; Balazs P.; Meunier S.; et al. (2016) Auditory Time-Frequency Masking for Spectrally and Temporally Maximally-Compact Stimuli. PLOS ONE, Bd. 11, S. 1-23.
  • Necciari T; Balazs P.; Pr uša Z.; Majdak P.; Derrien O. (2018) Audlet Filter Banks: A Versatile Analysis/Synthesis Framework using Auditory Frequency Scales. Applied Sciences, Bd. 8, S. 96-117.
  • Nicola F.; Romero J. L.; Trapasso S. I. (2022) On the existence of optimizers for time–frequency concentration problems. Calculus of Variations and Partial Differential Equations, Bd. 62/21.
  • Noll A.; Waubke H. (2011) Detektion und Korrektur von Drehfehlern C++ Klasse: cogEcorr / rpmOrderAna. . Wien.
  • Noll A.; Stuefer J.; Klingler N.; Leykum H.; Lozo C.; Luttenberger J.; et al. (2019) Sound Tools eXtended (STx) 5.0 – a powerful sound analysis tool optimized for speech. Proceedings Interspeech 2019. Graz S. 2370-2371.
  • Noll A.; Pucher M.; Lozo C. (2020) Formant tracking in Sound Tools eXtended (STx) 5.0. Fortschritte in der Akustik (DAGA 2020), Hannover. Hannover S. 956-958.
  • Novoselov A.; Balazs P.; Bokelmann G. (2022) SEDENOSS: SEparating and DENOising Seismic Signals With Dual - Path Recurrent Neural Network Architecture. Journal of Geophysical Research: Solid Earth, Bd. 127/3.
  • Osses Vecchi A.; Varnet L.; Carney L. H.; Dau T.; Bruce I. C.; Verhulst S.; et al. (2022) A comparative study of eight human auditory models of monaural processing. Acta AcusticaActa Acustica, Bd. 6.
  • Pausch F.; Doma S.; Fels J. (2022) Hybrid multi-harmonic model for the prediction of interaural time differences in individual behind-the-ear hearing-aid-related transfer functions. Acta Acustica, Bd. 6, S. 34.
  • Peremans H.; McLachlan G.; Majdak P.; Reijniers J. (2022) Ideal versus non-ideal observer models for sound localization. Proceedings: A11, Psychoacoustics, ICA 2022. Gyeongju S. 181-188.
  • Perraudin N.; Holighaus N.; Sondergaard P.; Balazs P. (2013) Gabor dual windows using convex optimization. Proceedings of the SampTA 2013. Bremen, Germany S. 33-36.
  • Perraudin N.; Holighaus N.; Majdak P.; Balazs P. (2018) Inpainting of Long Audio Segments with Similarity Graphs. IEEE/ACM Transactions on Audio, Speech, and Language Processing, Bd. 26, S. 1079-1090.
  • Perraudin N.; Holighaus N.; Sondergaard P. L.; Balazs P. (2018) Designing Gabor windows using convex optimization. Applied Mathematics and Computation, Bd. 330, S. 266 - 287.
  • Pichler G.; Koliander G. (2018) Information Bottleneck on General Alphabets. 2018 IEEE International Symposium on Information Theory (ISIT). Vail, CO S. 526-530.
  • Picinali L.; Katz B.F.; Geronazzo M.; Majdak P.; Reyes-Lecuona A.; Vinciarelli A. (2022) The SONICOM Project: Artificial Intelligence-Driven Immersive Audio, From Personalization to Modeling [Applications Corner]. IEEE Signal Processing Magazine, Bd. 39/6, S. 85-88.
  • Pilipovic S.; Stoeva D. T. (2014) Fréchet frames, general definition and expansions. Analysis and Applications, Bd. 12, S. 195-208.
  • Pilipović S.; Stoeva D. T. (2019) Frame expansions of test functions, tempered distributions, and ultradistributions. In: Analysis, Probability, Applications, and Computation. Trends in Mathematics.. Birkhäuser, Cham, S. 455 - 463.
  • Pilipović S.; Stoeva D. T. (2021) Localization of Fréchet frames and expansion of generalized functions. Bulletin of the Malaysian Mathematical Sciences Society.
  • Pini A.; Spreafico L.; Vantini S.; Vietti A. (2019) Multi-aspect local inference for functional data: Analysis of ultrasound tongue profiles. Journal of Multivariate Analysis, Bd. Volume 170, S. 162-185.
  • Pollack K.; Majdak P.; Furtado H. (2020) A Parametric Pinna Model for the Calculations of Head - Related Transfer Functions. Proceedings of Forum Acusticum 2020, Lyon. S. 1357-1360.
  • Pollack K.; Majdak P.; Brinkmann F.; Kreuzer W. (2021) Von Fotos zu personalisierter räumlicher Audiowiedergabe. e & i Elektrotechnik und Informationstechnik.
  • Pollack K.; Majdak P.; Furtado H. (2021) Evaluation of Pinna Point Cloud Alignment by Means of Non-Rigid registration Algorithms. Audio Engineering Society (AES) 150th convention.
  • Pollack K.; Majdak P. (2021) Evaluation of a Parametric Pinna Model for the Calculation of Head-Related Transfer Functions. Immersive and 3D Audio (I3DA) conference.
  • Pollack K.; Pausch F.; Majdak P. (2022) Parametric pinna model for a realistic representation of listener-specific pinna geometry. Proceedings: A21, Virtual Acoustics, ICA 2022. Gyeongju S. 168-178.
  • Pollack K.; Kreuzer W.; Majdak P. (2022) Modern Acquisition of Personalised Head - Related Transfer Functions: An Overview. In: Advances in Fundamental and Applied Research on Spatial Audio.. IntechOpen, London S. 25-61.
  • Pollack K.; Majdak P. (2022) Parametrische Darstellung der Pinnageometrie zur Berechnung von personalisierten Head-Related Transfer Functions. Fortschritte der Akustik - DAGA 2022. Stuttgart.
  • Pollack K.; Majdak P. (2022) Nichtrigide Anpassung von Punktwolken zur Berechnung von personalisierten Head-Related Transfer Functions. Fortschritte der Akustik - DAGA 2022. Stuttgart.
  • Pollack K.; Majdak P.; Furtado H. (2022) Parameterisation of Pinna Geometry. Dreiländertagung der Medizinischen Physik - digitaler Kongress 2021. SGSMP, ÖGMP, DGMP.
  • Pr uša Z.; Sondergaard P. L.; Holighaus N.; Wiesmeyr Ch.; Balazs P. (2014) The Large Time Frequency Analysis Toolbox 2.0. Sound, Music and MotionLecture Notes in Computer Science (Derrien O., Kronland-Martinet, R., Ystad, S., and Aramaki, M., eds.). Springer, Berlin / Heidelberg, 1-2 Bd. 8905 S. 419 - 444.
  • Pr uša Z.; Sondergaard P. L.; Balazs P.; Holighaus N. (2013) A Matlab/Octave toolbox for sound processing. Proceedings of the 10th International Symposium on Computer Music Multidisciplinary Research (CMMR 2013). Laboratoire de Mechanique et d"Acoustique, Publications of L.M.A., Marseill, France S. 299-314.
  • Pr uša Z.; Sondergaard P. L.; Rajmic P. (2016) Discrete Wavelet Transforms in the Large Time-Frequency Analysis Toolbox for Matlab/GNU Octave. ACM Transactions on Mathematical Software, Bd. 42, S. 32:1-32:23.
  • Pr uša Z. (2017) The Phase Retrieval Toolbox. Proceedings of the AES International Conference on Semantic Audio 2017. Erlangen S. 1-46.
  • Pruša Z.; Sondergaard P. L.; Balazs P.; Holighaus N. (2013) Real-Time Audio Processing in the Large Time Frequency Analysis Toolbox. Proceedings of the 10th International Symposium on Computer Music Multidisciplinary Research. Laboratoire de Mechanique et d"Acoustique, Publications of L.M.A., Marseill, France S. 1059-1062.
  • Pruša Z.; Balazs P.; Sondergaard P. (2017) A Noniterative Method for Reconstruction of Phase from STFT Magnitude. IEEE/ACM Trans. Audio, Speech and Language Processing, Bd. 25, S. 1154-1164.
  • Pruša Z.; Rajmic P. (2017) Toward high-quality real-time signal reconstruction from STFT magnitude. IEEE Signal Processing Letters, Bd. 26, S. 892-896.
  • Pruša Z.; Sondergaard P. L. (2017) Real-Time Spectrogram Inversion Using Phase Gadient Heap Integration. Proceeding of the 19th International Conference on Digital Audio Effects, DAFx-16. Brno S. 17-21.
  • Pruša Z.; Holighaus N. (2017) Real-Time Audio Visualization With Reassigned Non-uniform Filter Banks. in Proceeding of the 19th International Conference on Digital Audio Effects, DAFx-16. Brno S. 42950.
  • Pruša Z.; Holighaus N. (2017) Phase Vocoder Done Right. Proceedings of 25th European Signal Processing Conference (EUSIPCO-2017). Kos S. 1006-1010.
  • Pruša Z.; Holighaus N. (2017) Non-iterative Filter Bank Phase (Re)Construction. Proceedings of the 25th European Signal Processing Conference (EUSIPCO-2017),. Kos S. 952-956.
  • Průša Z.; Holighaus N.; Balazs P. (2021) Fast Matching Pursuit with Multi-Gabor Dictionaries. Transactions on Mathematical Software, Bd. 47, S. 1-20.
  • Průša Z.; Holighaus N.; Balazs P. (2020) Accelerating Matching Pursuit with multiple Time-Frequency Dictionaries. Proceedings of the 23rd International Conference on Digital Audio Effects (DAFx2020).
  • Pucher M. (2010) Resources for speech synthesis of Viennese varieties. Proceedings of the 7th International Conference on Lanquage Resources and Evalution (LREC). S. CD-ROM.
  • Pucher M.; Kerschhofer-Puhalo N.; Schabus D. (2011) Phone set selection for HMM-based dialect speech synthesis. Proceedings of the First Workshop on Algorithms and Resources for Modelling of Dialects and Language Varieties. Association for Computational Linguistics, Edinburgh, Scotland S. 65-69.
  • Pucher M.; Neubarth F.; Strom V.; Moosmüller S.; Hofer G.; Kranzler C.; et al. (2010) Resources for speech synthesis of Viennese varieties. Proceedings of the 7th International Conference on Lanquage Resources and Evalution (LREC). S. CD-ROM.
  • Pucher M.; Rausch-Supola M.; Moosmüller S.; Toman M.; Schabus D.; Neubarth F. (2016) Open data for speech synthesis of Austrian German language varieties. 12. Tagung Phonetik und Phonologie im deutschsprachigen Raum (C. and K. Draxler F. (Eds.), ed.). München S. 147-150.
  • Pucher M.; Villavicencio F.; Yamagishi J. (2016) Development and evaluation of a statistical parametric synthesis system for operatic singing in German. Speech Synthesis Workshop (SSW9). Sunnyvale, California S. 64-69.
  • Pucher M.; Lozo C.; Moosmüller S. (2017) Phone Mapping and Prosodic Transfer in Speech Synthesis of similar Dialect Pairs. 28. Konferenz Elektronische Sprachsignalverarbeitung 2017. Saarbrücken S. 180 -185.
  • Pucher M.; Zillinger B.; Toman M.; Schabus D.; Valentinni-Botinhao C.; Yamagishi J.; et al. (2017) Influence of speaker familiarity on blind and visually impaired children"s and young adults" perception of synthetic voices. . Bd. 46 S. 179-195.
  • Pucher M. (2017) Speech processing for multimodal and adaptive systems. . Technische Universität Graz, .
  • Pucher M.; Lozo C.; Moosmüller S. (2018) Evaluation methods for dialect speech synthesis of similar dialect pairs. Fortschritte in der Akustik (DAGA 2018). München S. 515-517.
  • Pucher M.; Moosmüller S.; Rausch-Supola M. (2019) Aufnahme von authentischen Dialektdaten für die Verwendung in der Sprachsynthese. In: Methodik moderner Dialektforschung. Erhebung, Aufbereitung und Auswertung von Daten am Beispiel des Oberdeutschen.. Olms, Hildesheim Bd. 241-243 S. 105-123.
  • Pucher M.; Lozo C.; Vergeiner P.; Wallner D. (2019) Diphthong interpolation, phone mapping, and prosody transfer for speech synthesis of similar dialect pairs. SSW10 - The 10th ISCA Speech Synthesis Workshop. Vienna S. 200-204.
  • Pucher M. (2019) Synthetic voices in Austrian German and Viennese sociolects/dialects. . ARI, .
  • Pucher M.; Klingler N.; Luttenberger J.; Spreafico L. (2020) Accuracy, recording interference, and articulatory quality of headsets for ultrasound recordings. Speech Communication, Bd. 123, S. 83-97.
  • Pucher M.; Moosmüller S. (2022) Phonetic analysis of dialect/standard transitions synthesized by model-based interpolation. In: Akustische Phonetik und ihre multidisziplinären Aspekte.. Verlag der Österreichische Akademie der Wissenschaften, Wien S. 67-90.
  • Pucher M.; Woltron T. (2021) Conversion of airborne to bone-conducted speech with deep neural networks. Interspeech 2021. Brno S. 1-5.
  • Pucher M.; Kranawetter K.; Reinisch E.; Koppensteiner W.; Lenz A. (2022) Perceptual effects of interpolated Austrian and German Standard varieties. Speech Communication, Bd. 141, S. 107-120.
  • Rahimi A.; Balazs P. (2010) Multipliers for p-Bessel sequences in Banach spaces. Integral Equations and Operator Theory, Bd. 68, S. 193-205.
  • Rahimi A. (2009) Multipliers of Generalized frames. Bulletin of the Iranian Mathematical Society, Bd. 35, S. 97-109.
  • Rahimi A. (2009) Multipliers of Generalized frames. Bulletin of Iranian mathematical society, Bd. 35, S. 97-109.
  • Rajbamshi S.; Balazs P.; Holighaus N. (2019) Adhoc method to Invert the Reassigned Time-Frequency Representation. Proceedings of the 23rd International Congress on Acoustics. S. 2789 - 2796.
  • Rajbamshi S. (2019) Random Gabor Multipliers for Compressive Sensing: A Simulation Study. Proceedings of the EUSIPCO 2019.
  • Rajbamshi S.; Tauboeck G.; Balazs P.; Abreu L. D. (2020) Method for Signal Processing. .
  • Rajbamshi S.; Tauböck G.; Holighaus N.; Balazs P. (2021) Audio Inpainting via L1-Minimization and Dictionary Learning. European Signal Processing Conference (EUSIPCO 2021).
  • Rajmic P.; Pr uša Z. (2014) Discrete Wavelet Transform of finite Signals: Detailed Study of the Algorithm. International Journal of Wavelets, Multiresolution and Information Processing, Bd. 12, S. 1450001.
  • Rajmic P.; Pr uša Z. (2014) Computational Cost of Chirp Z-transform and Generalized Goertzel Algorithm. Proceedings of 22nd European Signal Processing Conference (EUSIPCO) 2014. Lisboa, Portugal.
  • Rausch-Supola M.; Moosmüller S.; Leykum H.; Schmid C.; Luttenberger J. (2022) Die Ausbreitung des Wiener velarisierten Laterals: ein Vergleich Wien - Neunkirchen. In: Akustische Phonetik und ihre multidisziplinären Aspekte.. Verlag der Österreichischen Akademie der Wissenschaften, Wien S. 113-136.
  • Reber R.; Slipogor V.; Oh J.; Ravignani A.; Hoeschele M.; Bugnyar T.; et al. (2019) Common marmosets are sensitive to simple dependencies at variable distances in an artificial grammar. Evolution and Human Behaviour, Bd. 40(2), S. 214-221.
  • Reese H.; Reinisch E. (2022) Cognitive load does not increase reliance on speaker information in phonetic categorization. JASA Express Letters, Bd. 2, S. 055203.
  • Reichinger A.; Majdak P; Maierhofer S. (2013) Evaluation of Methods for Optical 3-D Scanning of Human Pinnas. Proceedings of the 3D Vision Conference 2013, Third Joint 3DIM/3DPVT Conference. Seattle, WA S. 390-397.
  • Reinisch E.; Penney J. (2019) The role of vowel length and glottalisation in German learners' perception of the English coda stop voicing contrast. Laboratory Phonology: Journal of the Association for Laboratory Phonology, Bd. 10(1):18, S. 1-26.
  • Reinisch E.; Juhl K. I.; Llompart M. (2020) The impact of free allophonic variation on the perception of second language phonological categories. Frontiers in Communication: Language Sciences, Bd. 5:47.
  • Reinisch E.; Bosker H.R. (2022) Encoding speech rate in challenging listening conditions: White noise and reverberation. Attention, Perception, & Psychophysics, Bd. 84, S. 2303-2318.
  • Reinisch E.; Mitterer H. (2023) Selective adaptation of German /r/: A role for perceptual saliency. Attention, Perception, & Psychophysics, Bd. 85(1), S. 222-233.
  • Rieckh G.; Kreuzer W.; Waubke H. (2009) BEM-model to simulate the vibrations in a tunnel in layered orthotropic media. NAG/DAGA 2009 (M. M. Boone, ed.). Rotterdam S. 677-680.
  • Rieckh G. (2009) Du darfst nicht mitspielen. [wie eine Privatsprache aussieht]. . Universität Wien, S. 90.
  • Rieckh G.; Kreuzer W.; Waubke H. (2009) Vibrations of a tunnel in layered orthotropic media - A BEM approach using parallel computation. Proceedings, IRF'2009. Porto S. CD-ROM.
  • Rieckh G.; Balazs P.; Kreuzer W. (2010) Frames and Acoustic BEM. Proceedings of the DAGA 2010. Berlin S. CD-ROM.
  • Rieckh G.; Balazs P.; Kreuzer W.; Waubke H. (2010) Frames for acoustic BEM. Proceedings of the Internoise 2010. Lisbon S. CD-ROM.
  • Rieckh G.; Waubke H.; Kreuzer W. (2011) Vibrations in layered anisotropic soil: 2.5D-Fourier-BEM and parallel computation. Proceedings of the 8th International Conference on STructural Dynamics, EURODYN 2011 (G. D. Roeck, Degrande, G., Lombaert, G., and Müller, G., eds.). Leuven, Belgium S. 570-573.
  • Rieckh G.; Kreuzer W.; Waubke H.; Balazs P. (2012) A 2.5D-Fourier-BEM-model for vibrations in a tunnel running through layered anisotropic soil. Engineering Analysis with Boundary Elements, Bd. 36, S. 960-967.
  • Riegler E.; Tauböck G. (2015) Almost Lossless Analog Compression without Phase Information. Proceedings of the IEEE International Symposium on Information Theory (ISIT) 2015. IEEE, Hong Kong S. 999 - 1003.
  • Riegler E.; Koliander G.; Bölcskei H. (2018) Rate-Distortion Theory for General Sets and Measures. 2018 IEEE International Symposium on Information Theory (ISIT). Vail, CO S. 101-105.
  • Riegler E.; Koliander G.; Bölcskei H. (2022) Lossy Compression of General Random Variables. Information and Inference: A Journal of the IMA.
  • Rohr E.; Marelli D.; Fu M. (2014) Kalman Filtering with Intermittent Observations: On the Boundedness of the Expected Error Covariance. IEE Transactions on Automatic Control, Bd. 59, S. 2724-2738.
  • Romero J. L.; van Velthoven J. T.; Voigtlaender F. (2021) On dual molecules and convolution-dominated operators. Journal of Functional Analysis, Bd. 280, S. 108963.
  • Romero J. L.; van Velthoven J. T.; Voigtlaender F. (2022) Invertibility of Frame Operators on Besov-Type Decomposition Spaces. J. Geom. Anal., Bd. 32, S. Paper No. 149.
  • Romero J.L.; Speckbacher M. (2022) Spectral-norm risk rates for multi-taper estimation of Gaussian processes. Journal of Nonparametric Statistics, Bd. 34/2, S. 448-464.
  • Romero J.L.; van Velthoven J.T. (2022) The density theorem for discrete series representations restricted to lattices. Expositiones Mathematicae, Bd. 40/2, S. 265-301.
  • Scheichl Stefan (2005) Linear and nonlinear propagation of higher order modes in hardwalled. JASA, Bd. 117, S. 1806-1827.
  • Schmid C.; Moosmüller S. (2013) Gender Differences in the Phonetic Realization of Semantic Focus. Proceedings of Prosody-Discourse Interface (IDP 2013). Leuven, Belgium S. 119-123.
  • Schmid C.; Moosmüller S.; Kasess C. (2015) Sociophonetics of the velarized lateral in the Viennese dialect. Proceedings of the 18th International Congress of Phonetic Sciences (ICPhS 2015). Glasgow, Scottland.
  • Schmid C. (2016) An acoustic analysis of German initial laterals in the L2 speech of Bosnian migrants living in Vienna. 12. Tagung Phonetik und Phonologie im deutschsprachigen Raum 12 (C. and K. Draxler F. (Eds.), ed.). München S. 176-179.
  • Schmid C.; Moosmüller S.; Kasess C. H. (2017) Geschlechtsspezifische Realisierung des velarisierten Laterals im Wiener Dialekt. In: Phonetik in und über Österreich.. Verlag der Österreichischen Akademie der Wissenschaften, Wien S. 99-122.
  • Schmid C.; Moosmüller S. (2017) An acoustic comparison between stressed and unstressed vowels in Standard Austrian German and Standard German German. In: Phonetik in und über Österreich.. Verlag der Österreichischen Akademie der Wissenschaften, Wien S. 45-59.
  • Schmid C.; Moosmüller S. (2017) L2 acquisition and L1 atrritioin in Bosnian-German late bilinguals - Phonetic observations at the segmental level. . S. 251.
  • Schmid C. (2020) Laterals in the L2 phoneme inventories of Bosnian-German late bilinguals. Proceedings of the Phonetics and Speech Technology Workshop (ÖLT2018). S. 6-19.
  • Schmid C. (2021) Cross-Language Mappings at the Phonetic Level in Late Bilingual Bosnian-German Speakers Living In Vienna. . Universität Wien, Wien.
  • Schmutzhard S. (2014) A numerical study of the Legendre-Galerkin method for the evaluation of the prolate spheroidal wave functions. Numerical Algorithms, Bd. -, S. 1-20.
  • Schmutzhard S.; Hrycak T.; Feichtinger H. (2015) A numerical study of the Legendre-Galerkin method for the evaluation of the prolate spheroidal wave functions. Numerical Algorithms, Bd. 68, S. 691-710.
  • Schmutzhard S.; Hrycak T.; Kreuzer W.; Waubke H. (2019) Fundamental solutions in modeling of vibrations radiated from tunnels with 2.5D - BEM. Proceedings of ICA 2019. ICA 2019, S. 7490 -7495.
  • Schmutzhard S.; Pamies-Vila M.; Hofmann A.; Chatziioannou V. (2019) Numerical simulation of transients in single reed woodwind instruments. Proceedings of ICA 2019. ICA 2019, .
  • Schörkhuber C.; Klapuri A.; Holighaus N.; Dörfler M. (2014) A matlab toolbox for efficient perfect reconstruction time-frequency transforms with log-frequency resolution. Proceedings of the 53rd AES international conference on semantic audio. London, UK S. CD-ROM.
  • Schrempf K. (2021) Free (rational) derivation. Extracta Math., Bd. 36, S. 25-50.
  • Shamsabadi M.; Arefijamaal A.; Balazs P. (2020) The invertibility of U-fusion cross Gram matrices of operators. Mediterranean Journal of Mathematics, Bd. 17, S. 130.
  • Shuman D. I. (2015) Spectrum-adapted tight wavelet and vertex-frequency frames. IEEE Transactions on Signal Processing, Bd. 63, S. 4223 - 4235.
  • Sondergaard P.; Culling J. F.; Dau T.; Le Goff N.; Jepsen M. L.; Majdak P.; et al. (2011) Towards a binaural modelling toolbox. Proceedings of the EAA Forum Acusticum. Aalborg, Denmark S. 2081-2086.
  • Sondergaard P.; Torr"esani B.; Balazs P. (2012) The Linear Time Frequency Analysis Toolbox. International Journal of Wavelets, Multiresolution and Information Processing, Bd. 10, S. 1250032.
  • Sondergaard P.; Majdak P. (2013) The Auditory Modeling Toolbox. In: The Technology of Binaural Listening.. Springer, Berlin, Heidelberg, New York S. 33-56.
  • Soukup B. (2011) Standard Language in Austria. In: Standard Languages and Language Standards in a Changing Europe.. Novus Verlag, Oslo S. 39-48.
  • Soukup B. (2011) Standard Language in Austria. In: Standard Languages and Language Standards in a Changing Europe.. Novus Verlag, Oslo S. 39-48.