|
15.2 - The New CNOSSOS calculation method for environmental noise of road / railway / industrial noise |
The benefits of validating your aircraft noise model
|
Trow James, Allmark Claire |
United Kingdom |
|
15.2 - The New CNOSSOS calculation method for environmental noise of road / railway / industrial noise |
Conversion of Railway Source Description of CNOSSOS - EU to CNOSSOS - DE
|
Möhler Ulrich, Huth Christine, Liepert Manfred |
Germany |
|
15.2 - The New CNOSSOS calculation method for environmental noise of road / railway / industrial noise |
CNOSSOS and industrial noise
|
Witte Rob |
Netherlands |
|
15: Noise mapping |
Input data complexity in railway traffic noise modeling: Case Study of Railway line M604 Oštarije – Gospić – Knin – Split
|
Ahac Saša, Ahac Maja, Dragčević Vesna, Lakušić Stjepan |
Croatia (Hrvatska) |
|
15: Noise mapping |
Differences in noise modelling in Slovenia
|
Cenček Špela, Markun Alenka |
Slovenia |
|
15: Noise mapping |
ZONING OF URBAN AREAS TO HIGHLIGHT THE RISK LEVELS OF HEALTH VIOLATIONS INDUCED BY ENVIRONMENTAL MAN-CAUSED NOISE
|
Koshurnikov Dmitrii |
Russian Federation |
|
15: Noise mapping |
END-mapping building block environmental noise information in The Netherlands
|
Lolkema Dorien, De Gruijter Dolf, Bergmans Dick |
Netherlands |
|
15: Noise mapping |
Long-term noise monitoring and dynamic noise mapping
|
Bite Pal, Silló Szabolcs |
Hungary |
|
16.1 - Rail Traffic Noise and Vibration |
A Methodology for Assessing Ground Borne Noise and Vibration Transfer Functions “Tunnel wall-Soil surface” for Metropolitan Rail Networks using the TBM Muck Train as a linear source: Measurements Campaign in the extension of Athens Metro Line 3 towards Piraeus
|
Zafiropoulou Vassiliki, Vogiatzis Konstantinos, Mouzakis Haralampos |
Greece |
|
16.1 - Rail Traffic Noise and Vibration |
Numerical study of a buried periodic device for vibration protection
|
Godinho Luís, Albino Carlos, Alves-Costa Pedro, Amado-Mendes Paulo, Soares Jr. Delfim |
Portugal |
|
16.1 - Rail Traffic Noise and Vibration |
An assessment of the effectiveness of noise reduction systems on Dublin’s light rail system (Luas)
|
Byrne Stephen |
Ireland |
|
16.1 - Rail Traffic Noise and Vibration |
The effects on sleep of ground borne noise from trains in tunnels
|
Smith Michael, Ögren Mikael, Ageborg Morsing Julia, Jerson Tomas, Persson Waye Kerstin |
Sweden |
|
16.1 - Rail Traffic Noise and Vibration |
Psychoacoustic study on the acceptance of train passings after rail grinding
|
Huth Christine, Eberlei Geske, Liepert Manfred, Kempinger Thomas |
Germany |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
Revision of the EN 15610 - Wheel roughness measurements
|
Lutzenberger Stefan, Aubin Fabrice, Czolbe Christian, Eichenlaub Christoph , Jones Chris, Letourneaux Fabien, Stegemann Bert |
Germany |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
a Norwegian approach for planning and modeling optimization
|
Aasen Trygve |
Norway |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
The InterCity initiative – railway development in Norway
|
Rasten Elin, Verstappen Ivonne |
Norway |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
Demonstrator for rail vehicle pass-by events
|
Pieren Reto, Lauper Demian, Heutschi Kurt |
Switzerland |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
Towards the probabilistic acoustic assessment of structure borne sound of railway bridges
|
Moschen Lukas, Fink Josef, Suppin Patrick, Achs Günther, Weiß Bernhard |
Austria |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
Sound propagation and distribution around typical train carbody structures
|
Fast Dennis, Kirchner Karl-Richard, Kohrs Torsten, Vallespin Alberto, Sapena Joan, Guiral Garcia Ainara, Martner Otto |
Germany |
|
16.2 - Rail Traffic Noise and Vibration: modelling and measurement |
The effect of close proximity, low height noise barriers on railway noise
|
Nieuwenhuizen Edwin, Yntema Nils |
Netherlands |
