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Artur Nowoświat and Marcelina Olechowska

References 1. A rau -P uchades H. (1988), An Improved Reverberation Formula , Acustica, 65 , 163–180. 2. A rau -P uchades H. (2005), Are the scattering and the absorption coefficients two faces of a same coin? Reverberation time in two cases analyzed , International Congress on Noise Control Engineering (Internoise 2005), Rio de Janeiro, Brazil 7 – 10 August 2005, Vol. 1–5, ISBN 978-1-62276-339-9, 3203–3211. 3. A rau -P uchades H., B erardi U. (2013), The reverberation radius in an enclosure with asymmetrical absorption distribution

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Piotr Szłapa, Marta Boroń, Jolanta Zachara and Wojciech Marczak

References 1. A retz M., O rlowski R. (2009), Sound strength and reverberation time in small concert halls , Appl. Acoust., 70 , 1099–1110. 2. B eranek L.L. (1993), Acoustics , Acoustical Society of America, New York. 3. B oothroyd A. (2002), Room acoustics and speech perception , San Diego State University, Retrieved February 1st, 2016 from http://www-rohan.sdsu.edu/~aboothro/files/Papers_on_RoomAcoustics/Roomacousticsandspeechperception.pdf 4. B roch J.T., J ensen V.N. (1966), On the Measurement of Reverberation , Bruel and

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Jarosław Kraszewski

, 3284-3287. Kraszewski J. (2011), Application of diffusion model for calculation of reverberation time , 6th European Congress on Acoustics: Forum Acusticum, 1511-1516. Kraszewski J. (2010a), Boundary term modification in room acoustic field modeling using diffusion equation method, based on finite difference method , 57th Open Seminar on Acoustics OSA, 99-102. Kraszewski J. (2010b), Dealing of the acoustic field in rooms using diffusion equation method based on finite difference method

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Jianxin Peng

References [1] BRACHMANSKI S. (2002), Effect of additive interference on speech transmission , Archives of Acoustics, 27, 95-108. [2] HELFER K.S. (1994), Binaural cues and consonant perception in reverberation and Noise , Journal of Speech & Hearing Research, 37, 429-438. [3] KONG Y.Y., ZENG F.G. (2006), Temporal and spectral cues in Mandarin tone recognition , J. Acoust. Soc. Am., 120, 2830-2840. [4] LIU H., ZHANG S.Y., MENG Z.H. (2010), Test on Mandarin Monosyllable Clarity and Speech Intelligibility Estimation With Low SNR , Audio Engineering

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Jędrzej Kociński and Edward Ozimek

.T., Festen J.M., Houtgast T. (2010), Measuring the Effects of Reverberation and Noise on Sentence Intelligibility for HearingImpaired Listeners, Journal of Speech, Language, and Hearing Research, 53, 1429-1439. 18. Hagerman B. (1982), Sentences for testing speech intelligibility in noise, Scand. Audiol., 11, 79-87. 19. Harvie-Clark J., Dobinson N., Larrieu F. (2014), Use of G and C50 for classroom design, Forum Acousticum 2014, Krakow, Poland. 20. Houtgast T., Steeneken H.J. (1985), A review of the MTF concept in room

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Witold Mikulski and Jan Radosz

: Reverberation time in ordinary rooms (ISO 3382-2:2008). SFS 5907:en Acoustics classification of spaces in buildings. prPN-B-02151-4, supersedesPN-87/B-02151.02 Building acoustics. Noise protection of apartments in buildings. Permissible values of sound level [in Polish: Akustyka budowlana. Ochrona przed hałasem pomieszczeń w budynkach. Dopuszczalne wartości poziomu dźwięku w pomieszczeniach ]. Technical requirements to be met by buildings and their location [in Polish: Warunki techniczne jakim

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Artur Nowoświat and Marcelina Olechowska

References 1. Agarwal N., Shiva Nagendra S.M. (2016), Modelling of particulate matters distribution inside the multilevel urban classrooms in tropical climate for exposure assessment, Building and Environment, 102, 73-82. 2. Arau-Puchades H., Berardi U. (2015), A revised sound energy theory based on a new formula for the reverberation radius in rooms with non-diffuse sound field, Archives of Acoustics, 40, 1, 33-40. 3. Arau-Puchades H., Berardi U. (2013), The reverberation radius in ans enclosure with

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Higini Arau-Puchades and Umberto Berardi

References 1. Arau-Puchades H. (1988), An improved reverbera- tion formula, Acustica, 65, 163-180. 2. Arau-Puchades H. (2012), Sound Pressure Level in Rooms: Study of steady state intensity, total sound level, reverberation distance, a new discussion of steady state intensity and other experimental formulae, Build- ing Acoustics, 19, 3, 205-220. 3. Arau-Puchades H., Berardi U. (2013), The re- verberation radius in an enclosure with asymmetrical absorption distribution, Proceedings of Meetings on Acoustics, 19

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Kim Abouchacra, Janet Koehnke, Joan Besing and Tomasz Letowski

-visual corpus for speech perception and automatic speech recognition , Journal of the Acoustical Society of America, 120 , 2421-2424. Darwin C., Hukin R. (2000a), Effectiveness of spatial cues, prosody, and talker characteristics in selective attention , Journal of the Acoustical Society of America, 107 , 970-977. Darwin C., Hukin R. (2000b), Effects of reverberation on spatial, prosodic and vocal-tract size cues to selective attention , Journal of the Acoustical Society of America, 108 , 335

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Rodrigo P.B. Costa-Felix

-2:1994 - Accuracy (trueness and precision) of measurement methods and, results - Part 2: Basic method for the determination of repeatability and reproducibility of a standard measurement method, International Organization for Standardization, Geneva, Switzerland. 18. ISO (1994b), ISO 3743-2:1994 - Acoustics - Determination of sound power levels of noise sources using sound pressure - Engineering methods for small, movable sources in reverberant fields - Part 2: Methods for special reverberation test rooms, International Organization for Standardization, Geneva