References

1. American National Standards Institute. (1974). American National Standard for the Measurement of Real-Ear Hearing Protector Attenuation and Physical Attenuation of Earmuffs (ANSI S3.19-1974). New York, NY.

2. American National Standards Institute. (1997). Methods for Measuring the Real-ear Attenuation of Hearing Protectors (ANSI S12.6-1997). New York, NY.

3. International Organization for Standardization. (2018). Acoustics -- Hearing protectors -- Part 2: Estimation of effective A-weighted sound pressure levels when hearing protectors are worn (ISO 4869-2:2018). Geneva, Switzerland.

4. International Electrotechnical Commission. (2010). Electroacoustics -- Simulators of human head and ear -- Part 4: Occluded-ear simulator for the measurement of earphones coupled to the ear by means of ear inserts (IEC 60318-4:2010). Geneva, Switzerland.

5. Sabin, A., Taddei, S., & Bailey, A. (2023). HearAdvisor procedures for recording and evaluating hearing devices. OSF Preprints. https://osf.io/fdxmb

6. Moore, B. C., Glasberg, B. R., & Baer, T. (1997). A model for the prediction of thresholds, loudness, and partial loudness. Journal of the Audio Engineering Society, 45(4), 224--240.

7. International Organization for Standardization. (2017). Acoustics -- Methods for calculating loudness -- Part 2: Moore-Glasberg method (ISO 532-2:2017).

8. Moore, B. C., & Tan, C. T. (2003). Perceived naturalness of spectrally distorted speech and music. The Journal of the Acoustical Society of America, 114(1), 408--419.

9. Moore, B. C., & Tan, C. T. (2004). Development and validation of a method for predicting the perceived naturalness of sounds subjected to spectral distortion. Journal of the Audio Engineering Society, 52(9), 900--914.

10. Majdak, P., Hollomey, C., & Baumgartner, R. (2022). AMT 1.x: A toolbox for reproducible research in auditory modeling. Acta Acustica, 6, 19.