Peer-reviewed

• Brochier, T., Schlittenlacher, J., Roberts, I., Goehring, T., Jiang, C., Vickers, D., Bance, M. (2022). From microphone to phoneme: An end-to-end computational neural model for predicting speech perception with cochlear implants, IEEE Transactions on Biomedical Engineering
• Perugia, E., BinKhamis, G., Schlittenlacher, J., Kluk, K. (2021). On prediction of aided behavioural measures using speech auditory brainstem responses and decision trees
• Schlittenlacher, J., Ellermeier, W. (2021). Continuous magnitude production of loudness, Frontiers in Psychology, 12, 1 – 9
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2020). Development of a deep neural network for speeding up a model of loudness for time-varying sounds, Trends in Hearing, 24, 1 – 13
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2020). Application of Bayesian active learning to the estimation of auditory filter shapes using the notched-noise method, Trends in Hearing, 24, 1 – 10
• Schlittenlacher, J., Moore, B. C. J. (2020). Fast estimation of equal-loudness contours using Bayesian active learning and direct scaling, Acoustical Science and Technology, 41(1), 358 – 360
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2019). The implementation of efficient hearing tests using machine learning, Proceedings of the International Symposium on Auditory and Audiological Research, 7, 1 – 12
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2019). A deep neural network to speed up a model of loudness for time-varying sounds, Proceedings of the International Symposium on Auditory and Audiological Research, 7, 133 – 140
• ISO/AWI 532-3. Acoustics – Methods for calculating loudness – Part 3: Moore-Glasberg-Schlittenlacher method for time varying sounds, under review
• Schlittenlacher, J., Staab, K., Çelebi, Ö., Samel, A., Ellermeier, W. (2019). Determinants of the Irrelevant Speech Effect: Changes in spectrum and envelope, Journal of the Acoustical Society of America, 145(6), 3625 – 3632
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2018). Audiogram estimation using Bayesian active learning, Journal of the Acoustical Society of America, 144(1), 421 – 430
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2018). A hearing-model-based active-learning test for the determination of dead regions, Trends in Hearing, 22, 1 – 13
• Moore, B.C.J., Jervis, M., Harries, L., Schlittenlacher, J. (2018). Testing and refining a loudness model for time-varying sounds incorporating binaural inhibition, Journal of the Acoustical Society of America, 143(3), 1504 – 1513
• Schlittenlacher, J., Hashimoto, T., Kuwano, S., Namba, S. (2017). Overall judgment of loudness of time-varying sounds, Journal of the Acoustical Society of America, 142(4), 1841 – 1847
• Thwaites, A., Schlittenlacher, J., Nimmo-Smith, I., Marslen-Wilson, W. D., Moore, B. C. J. (2017). Tonotopic representation of loudness in the human cortex, Hearing Research, 344, 244 – 254
• Moore, B. C. J., Glasberg, B. R., Varathanathan, A., Schlittenlacher, J. (2016). A loudness model for time-varying sounds incorporating binaural inhibition, Trends in Hearing, 20, 1 – 16
• Schlittenlacher, J., Ellermeier, W., Avci, G. (2016). Simple reaction time for broadband sounds compared to pure tones, Attention, Perception, & Psychophysics, 79(2), 628 – 636
• Schlittenlacher, J., Moore, B. C. J. (2016). Discrimination of amplitude-modulation depth by subjects with normal and impaired hearing, Journal of the Acoustical Society of America, 140(5), 3487 – 3495
• Schlittenlacher, J., Ellermeier, W. (2015). Simple reaction time to the onset of time-varying sounds, Attention, Perception, & Psychophysics, 77(7), 2424 – 2437
• Schlittenlacher, J., Ellermeier, W. (2015). Spectral loudness summation: Shortcomings of current standards, Journal of the Acoustical Society of America, 137(1), EL26 – EL31
• Schlittenlacher, J., Ellermeier, W., Arseneau, J. (2014). Binaural loudness gain measured by simple reaction time, Attention, Perception, & Psychophysics, 76(5), 1465 – 1472
• Bamberger, W., Schlittenlacher J., Diepold, K. (2012). Ability-aware trust for vehicular networks. International Journal of Social Computing and Cyber-Physical Systems, 1(3), 286 – 307

Books

• Schlittenlacher, J., Moritz, K. (2016) Erweiterte Signalanalyse: Entwicklung der psychoakustischen Analysen von Luftschall und Übertragung auf Körperschallsignale in der Antriebstechnik (Enhanced signal analysis: Development of psychacoustic analyses for airborne sound and application to structure-borne signals in drive engineering), FVA Heft 1192, 1 – 57, Forschungsvereinigung Antriebstechnik, Frankfurt am Main
• Schlittenlacher, J. (2015). Effects of auditory processing on loudness and reaction time, 1 – 132, Shaker, Aachen

Book chapter

• Ellermeier, W., Hellbrück, J., Schlittenlacher, J. (2014). Physiologische und psychoakustische Grundlagen des Hörens (Physiological and psychoacoustical basics of hearing), In: Akustische Grundlagen der Musik (Acoustical foundations of music), 31 – 78, S. Weinzierl (Eds.), Laaber-Verlag

Conference papers, preprints and abstracts

• Schlittenlacher, J., Baer, T. (2021) Text-to-speech for the hearing impaired, arXiv, 2012.02174
• Schlittenlacher, J., Moore, B. C. J. (2021). Temporal integration of partial loudness of helicopter-like sounds, Proceedings of Inter-Noise 2011, Washington D.C.
• Schlittenlacher, J., Kluk, K., Stone, M. A., Perugia, E. (2021). A Bayesian active-learning test for remote hearing-aid fitting, 180th Meeting of the Acoustical Society of America 2021
• Schlittenlacher, J., Perugia, E., Brochier, T., Roberts, I., Goehring, T., Jiang, C., Vickers, D., Turner, R. E., Bance, M., Moore, B. C. J. (2021). Machine learning for models of auditory perception, VCCA 2021
• Brochier, T., Schlittenlacher, J., Roberts, I., Goehring, T., Jiang, C., Vickers, D., Bance, M. (2021). Comparing phonemic information transmission with cochlear implants between human listeners and an end-to-end computational model of speech perception, VCCA 2021
• Brochier, T., Goehring, T., Roberts, I., Jiang, C., Schlittenlacher, J., Bance, M. (2021). Evaluating information transmission through a cochlear implant using finite element neural activation model and an automatic speech recognition neural network, 44th Annual midwinter meeting of the ARO 2021.
• Perugia, E., Bin Khamis, G., Schlittenlacher, J., Kluk, K. (2020). On nonlinearity prediction of hearing aid behavioural measures using speech auditory brainstem responses and decision trees, VCCA2020
• Schlittenlacher, J., Zhao, R., Moore, B. C. J. (2019). Loudness of ramped and damped sounds that are temporally shifted across ears, ICA 2019, Aachen
• Vickers, D., Moore, B. C. J., Boyle, P., Schlittenlacher, J., van Yper, L., Undurraga, J. (2019). Electrophysiological and psychophysical measures of amplitude modulation discrimination interference in cochlear implant users, ICA 2019, Aachen
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2019) Fast computation of loudness using a deep neural network, arXiv, 1905.10399
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2018). A machine-learning test for the estimation of auditory filter shapes across frequency, Basic Auditory Science Meeting, Newcastle
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2018). Estimation of auditory filter shapes across frequencies using machine learning, IHCON 2018, Lake Tahoe
• Schlittenlacher, J. (2018). The ear as a sound receiver: Temporal effects and background noise, Elevate Summit, Los Angeles
• Schlittenlacher, J., Baer, T., Turner, R. E., Moore, B. C. J. (2018). A Bayesian active-learning approach for obtaining notched-noise data, Tagungsband Fortschritte der Akustik – DAGA 2018, Munich
• Schlittenlacher, J. (2017). Possibilities for hearing tests by using machine learning, AVICCS, Shenzhen
• Schlittenlacher, J., Moore, B. C. J. (2017). Testing a loudness model for binaural time-varying sounds using vocoded speech, Basic Auditory Science Meeting, Notthingham
• Moore, B. C. J., Schlittenlacher, J., Boyle, P. (2017). A new method for identifying “bad” channels based on across-channel modulation masking, 2017 Conference on Implantable Auditory Prostheses, Lake Tahoe
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2017). A fast test for the determination of dead regions, Journal of the Acoustical Society of America, 141(5), 3635
• Moore, B. C. J., Jervis, M., Harries, L., Schlittenlacher, J. (2017). The loudness of an amplitude modulated sinusoid as a function of interaural modulator phase, modulation rate and level, Journal of the Acoustical Society of America, 141(5), 3500
• Schlittenlacher, J. (2017). Audibility and acceptability: Use of the Cambridge loudness models, Elevate Summit, Dallas
• Schlittenlacher, J., Turner, R. E., Moore, B. C. J. (2016). Machine learning for efficient hearing tests, Basic Auditory Science Meeting, Cambridge
• Schlittenlacher, J., Moore, B. C. J. (2016). Hearing-impaired listeners show poorer than normal amplitude-modulation depth discrimination, IHCON 2016, Lake Tahoe
• Ellermeier, W., Schlittenlacher, J. (2016). Measuring loudness through reaction time: Binaural and temporal summation, 31st International Congress on Psychology, Yokohama
• Ellermeier, W., Rost, K., Schlittenlacher, J. (2016). “Pixelated speech”: Manipulating the temporal resolution of spectral and level changes in disruptive irrelevant background noise, Proceedings of Inter-noise 2016, Hamburg
• Rost, K., Schlittenlacher, J., Ellermeier, W. (2016). Acoustic features triggering irrelevant speech effects, 58. Tagung experimentell arbeitender Psychologen, Heidelberg
• Bös, J., Moritz, K., Schlittenlacher, J., Ellermeier, W., Melz, T. (2016). Maschinenakustik und Psychoakustik: Analyse von Getriebegeräuschen (Machine acoustics and psychoacoustics: Analysis of gear sounds), Tagungsband Fortschritte der Akustik – DAGA 2016, Aachen
• Hashimoto, T., Schlittenlacher, J., Namba, S., Kuwano, S. (2015). Validity of LL(P) and N5 as measures for overall loudness of time-varying sound, Proceedings of the INCE/J Meeting 2015, Tokyo
• Namba, S., Schlittenlacher, J., Hashimoto, T., Kuwano, S. (2015). Problems in questionnaire survey and noise research and criteria for noise evaluation, Proceedings of the ASJ Autumn Meeting 2015, Aizuwakamatsu
• Schlittenlacher, J., Namba, S., Kuwano, S., Hashimoto, T. (2015). Finding stimuli for the comparison of temporal loudness models, Proceedings of the ASJ Spring Meeting 2015, Tokyo
• Schlittenlacher, J., Hashimoto, T., Kuwano, S., Namba, S. (2015). Comparison of N5 and LL(P) as measures for time-varying loudness, Proceedings of the ASJ Spring Meeting 2015, Tokyo
• Schlittenlacher, J., Moritz, K. (2014). Entwicklung der psychoakustischen Analysen von Luftschall und Übertragung auf Körperschallsignale in der Antriebstechnik (Development of psychacoustic analyses for airborne sound and application to structure-borne signals in drive engineering), FVA Forschungsreport 2014, vol. 2, 360-382
• Schlittenlacher, J., Hashimoto, T., Kuwano, S., Namba, S. (2014). Overall loudness of short time-varying sounds, Proceedings of Inter-noise 2014, Melbourne
• Schlittenlacher, J., Samel, A., Schleussner, A., Rost, K., Çelebi, Ö., Ellermeier, W. (2014). Instantaneous and overall loudness of music, 7th Forum Acusticum, Krakow
• Ellermeier, W., Kern, A., Schlittenlacher, J. (2014). A method to uncover salient auditory features of gear unit sounds, 7th Forum Acusticum, Krakow
• Ellermeier, W., Schlittenlacher, J. (2014). Methods for Measuring Loudness and their Application to Sounds Fluctuating in Space and Time, Congrès Français d'Acoustique 2014, Poitiers
• Schlittenlacher, J., Ellermeier, W. (2014). Effect of rise time and amplitude modulation on auditory simple reaction time, 56. Tagung experimentell arbeitender Psychologen, Gießen
• Schlittenlacher, J., Ellermeier, W., Chen, J., Moritz, K. (2014). Psychoakustische Lästigkeit von Getriebegeräuschen (Psychoacoustical annoyance of gear sounds), Tagungsband Fortschritte der Akustik – DAGA 2014, Oldenburg
• Moritz, K., Ochs, S., Schlittenlacher, J., Bös, J., Melz, T. (2014). Einflüsse auf die subjektive Wahrnehmung von Getriebegeräuschen (Parameters for the perception of gear sounds), Tagungsband Fortschritte der Akustik – DAGA 2014, Oldenburg
• Schlittenlacher, J., Ellermeier, W., Yilmaz, C., Trutin, M., Tauchert A., Sobisch M., Collin, D.J. (2014). Wahrgenommene Leistungsfähigkeit von Getriebegeräuschen (Perceived power of gear sounds), Tagungsband Fortschritte der Akustik – DAGA 2014, Oldenburg
• Namba, S., Schlittenlacher, J., Hashimoto, T., Kuwano, S. (2013). Relation between calculated loudness and observed loudness in the case of time varying complex sounds, ASJ Autumn Meeting 2013, Toyohashi
• Schlittenlacher, J., Kern, A., Ellermeier, W. (2013). Extracting salient perceptual features of machinery noise using triadic comparisons, Fechner Day 2013, Freiburg
• Schlittenlacher, J., Ellermeier, W. (2013). Psychoacoustic evaluation of gear noise using category ratings of multiple attributes, Proceedings of Inter-noise 2013, Innsbruck
• Schlittenlacher, J., Hashimoto, T., Ellermeier, W. (2013). Elimination of discrepancies between loudness standards, Proceedings of the ASJ Spring Meeting 2013, Hachioji
• Parizet, E., Robart, R., Chamard, J.-C., Schlittenlacher, J., Pondrom, P., Ellermeier, W., Bianciardi, F., Janssens, K., Speed-Andrews, P., Cockram, J., Hatton, G.: Detectability and annoyance of warning sounds for electric vehicles, Proceedings of Meetings on Acoustics, ICA 2013, Montreal, (2013)
• Robart, R., Parizet, E., Chamard, J.-C., Janssens, K., Bianciardi, F., Schlittenlacher, J., Ellermeier, W., Pondrom, P., Cockram, J., Speed-Andrews, P., Hatton, G. (2013). eVADER: A Perceptual Study of Three Sound Features Predicted to Increase the Ability of Pedestrians to Detect and Localize Hybrid and Electric Vehicles (Quiet Cars) While Maintaining Low-Level Sound Emission, AIA-DAGA 2013, Meran
• Schatz, K., Schlittenlacher, J., Ullrich, D., Rüppel, U., Ellermeier, W. (2013). Investigating Human Factors in Fire Evacuation: A Serious-Gaming Approach, Pedestrian and Evacuation Dynamics 2012, 1113 – 1121
• Schlittenlacher, J., Ellermeier, W., Hashimoto, T. (2012). Loudness model extension improving predictions of broadband sounds, Proceedings of Inter-Noise 2012, New York
• Ellermeier, W., Schlittenlacher, J. (2012). Messung binauraler Lautheit durch Einfachreaktionszeiten (Measurement of binaural loudness by simple reaction times), 54. Tagung experimentell arbeitender Psychologen, Mannheim
• Ellermeier, W., Schlittenlacher, J., Arseneau, J. (2012). Quantification of binaural loudness summation by measuring simple reaction time. Tagungsband Fortschritte der Akustik – DAGA 2012, Darmstadt
• Schlittenlacher, J., Fastl, H., Hashimoto, T., Kuwano, S., Namba, S. (2012). Differences of loudness algorithms across the frequency spectrum. Tagungsband Fortschritte der Akustik – DAGA 2012, Darmstadt
• Schlittenlacher, J., Hashimoto, T., Fastl, H., Namba, S., Kuwano, S., Hatano, S. (2011). Loudness of pink noise and stationary technical sounds. Proceedings of Inter-Noise 2011, Osaka
• Bamberger, W., Schlittenlacher J., Diepold K. (2010). A Trust Model for Intervehicular Communication Based on Belief Theory. IEEE Second International Conference on Social Computing (SocialCom), 73 – 80