|
17.4 - Annoyance due to low-level sounds transmitted to dwellings |
Masking Effect of Artificial and Natural Sounds on Residential Noises
|
Ryu Jongkwan, Song Hansol |
|
|
17.4 - Annoyance due to low-level sounds transmitted to dwellings |
The influence of the reproduction system on the results of the listening tests in building acoustics
|
Benklewski Jakub, Horvat Marko, Chmelik Vojtech, Zelem Lukas , Müllner Herbert, Jambrosic Kristian, Rychtarikova Monika , Glorieux Christ |
Austria |
|
17.4 - Annoyance due to low-level sounds transmitted to dwellings |
The influence of energy-based parameters on annoyance due to combined railway noise and vibrations: a lack of consensus among the literature studies
|
Maigrot Philéas, Marquis-Favre Catherine, Parizet Étienne |
France |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Reception plate method for tonal vibro-acoustic sources in buildings.
|
Gibbs Barry |
United Kingdom |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Estimating maximum Fast time-weighted vibration levels from short equivalent continuous vibration level measurements of structure-borne sound sources on heavyweight plates
|
Reinhold Steffi, Hopkins Carl, Seiffert Gary |
Germany |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Measurements of impact force excitation on wooden floors
|
Lietzén Jesse, Miettinen Juha, Kylliäinen Mikko, Pajunen Sami |
Finland |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Characterization of a water drainage pipe using the EN 14366 and EN 15657 methods
|
Bailhache Simon, Colin Stéphanie, Ducruet Pascal, Guigou-Carter Catherine |
France |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Sanitary Installations in Buildings – Noise Contribution Analysis with Sensor Arrays and Laser Scanning Vibrometry
|
Wolff Oliver, Förster Joachim |
Switzerland |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Predicting sound levels generated on site by structure-borne sound sources in buildings
|
Villot Michel |
France |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Measurement and prediction of structure-borne sound transmission from machinery in timber-frame buildings
|
Mayr Andreas, Schöpfer Fabian, Schanda Ulrich, Hopkins Carl |
Germany |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Standardising structure-borne noise assessments with heavy impacts for potential gyms in lightweight mixed use structures
|
Rogers Peter, Matherson Chris, Woodhams Sebastian, Rubio Sara |
United Kingdom |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
In-situ performances prediction of base-isolated buildings
|
Trévisan Benjamin, Grau Loïc, Bozzetto Denis, Villot Michel, Jean Philippe |
France |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Acoustic performance prediction for building elements including biobased fibrous materials
|
Glé Philippe, Blinet Thibaut, Guigou-Carter Catherine |
France |
|
17.6 - Predicting vibration / impact / structure-borne sound in buildings |
Estimation of coupling power proportionality for the SEA of highly dissipative dynamical system in medium-high frequency domain
|
Guo Yifu, Desceliers Christophe, Coguenanff Corentin, Guigou-Carter Catherine |
France |
|
17: Building acoustics |
Application of ETPU to floor resillient materials for reducing floor impact noises
|
Kim Yong Hee, Song Guk Gon, Bae Seok Kyeong |
|
|
17: Building acoustics |
Finnish round robin test on airborne sound insulation
|
Lietzén Jesse, Kylliäinen Mikko |
Finland |
|
17: Building acoustics |
Person identification from walking sound on wooden floor
|
Diapoulis Georgios, Rosas Carmen, Larsson Krister, Kropp Wolfgang |
Sweden |
|
17: Building acoustics |
Improvements in Acoustical Performance of Lightweight Floating Floors for Gym/Sports Applications
|
Masoumi Hamid, Pinto Paulo, Carels Patrick M. |
Belgium |
|
17: Building acoustics |
THE INI-EVA RANKING: THE TRUTH ABOUT RESILIENT LAYERS
|
Verbandt Filip |
Belgium |
|
17: Building acoustics |
Validation of structure-borne sound prediction methods
|
Nagy Attila Balazs, Fiala Peter |
Hungary |
