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Creating Acoustic Maps Employing Supercomputing Cluster

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The implemented online urban noise pollution monitoring system is presented with regard to its conceptual assumptions and technical realization. A concept of the noise source parameters dynamic assessment is introduced. The idea of noise modeling, based on noise emission characteristics and emission simulations, was developed and practically utilized in the system. Furthermore, the working system architecture and the data acquisition scheme are described. The method for increasing the speed of noise map calculation employing a supercomputer is explained. The practical implementation of noise maps generation and visualization system is presented, together with introduced improvements in the domain of continuous noise monitoring and acoustic maps creation. Some results of tests performed using the system prototype are shown. The main focus is put on assessing the efficiency of the acoustic maps created with the discussed system, in comparison to results obtained with traditional methods.
Rocznik
Strony
395--418
Opis fizyczny
Bibliogr. 35 poz., fot., rys., tab.
Twórcy
autor
autor
  • Gdansk University of Technology Multimedia Systems Department Narutowicza 11/12, 80-233 Gdansk, Poland, ksm@sound.eti.pg.gda.pl
Bibliografia
  • 1. Acoustics - Attenuation of sound during propagation outdoors - Part 2: General method of calculation, International Standard ISO 9613-2: 2000, International Organization for Standardization, Geneva, Switzerland, (1990).
  • 2. Acoustics - Description, measurement and assessment of environmental noise - Part 1: Basic quantities and assessment procedures, International Standard ISO 9613-1: 2003, (1990), International Organization for Standardization, Geneva, Switzerland.
  • 3. Barelds R., Nota R. (2002), Propagation paths and reflections, Harmonoise WP 3 Technical Report, Den Haag.
  • 4. Batko W., Stepien B. (2009), Non-parametric methods of estimation of type A uncertainty of the environmental noise hazard indices, Archives of Acoustics, 34, 3, 295-303.
  • 5. Chang F., Chen C.J., Lu C.J. (2004), A linear-time component-labeling algorithm using contour tracing technique, Journal of CVIU, 93, 206-220.
  • 6. Comeagaa D., Lazarovicib B., Tachec G. (2007), Reverse engineering for noise maps with application for Bucharest city, INTER-NOISE 2007, 28-31 August, Istanbul, Turkey.
  • 7. Czyżewski A., Kostek B., Kotus J. (2008), Multimedia Interactive Services in Intelligent Environments Advanced Tools and Methodologies, Chapter, edited by Tsihrintzis G.A. and Lakhmi J., 275-295, Springer Verlag, Heidelberg, Studies in Computational Intelligence, 120, Berlin.
  • 8. Czyżewski A., Kotus J., Kostek B. (2007), Determining the noise impact on hearing using psychoacoustical noise dosimeter, Archives of Acoustics, 32, 2, 215-229.
  • 9. Czyżewski A., Kotus J., Kostek B., Szczodrak M. (2007), Multimedia Noise Monitoring System [in Polish: Multimedialny System Monitorowania Hałasu], Bezpieczenstwo Pracy, 7-8.2007, 8-11.
  • 10. Czyżewski A., Kotus J., Kulesza M. (2005), Project and development of the automatic station for environmental noise monitoring [in Polish], ISSET 2005, Kraków, Poland, 53-60.
  • 11. Dalka P. (2006), Detection and Segmentation of Moving Vehicles and Trains Using Gaussian Mixtures, Shadow Detection and Morphological Processing, Machine Graphics and Vision, 15, 339-348.
  • 12. Directive 2002/49/EC of the European parliament and of the council of 25 June 2002 relating to the assessment and management of environmental noise, Official Journal of the European Communities, 2002.07.18, (2002).
  • 13. Embleton T.F. (1996), Tutorial on sound propagation outdoors, J. Acoust. Soc. Am., 100, 1, 31-48.
  • 14. Engel Z. (2001), Environmental protection against vibrations and noise [in Polish], PWN, Warszawa, Poland.
  • 15. Engel Z. (2010), From the history of the noise control conference, Archives of Acoustics, 35, 2, 133-144.
  • 16. Engel Z., Zawieska W. (2004), Environmental noise protection, noise threat in the year of Poland joining EU [in Polish], 13th International Conf. on Noise Control, Gdynia 6-9.06 2004.
  • 17. Furlanello C., Merler S., Menegon S., Mancuso S., Bertiato G. (2002), New WEBGIS technologies for geolocation of epidemiological data: an application for the surveillance of the risk of Lyme borreliosis disease, Proc. Spec. Issue Giornale Italiano di Aritmologia e Cardiostimolazione, 5, 1, 241-245.
  • 18. Gołębiewski R., Makarewicz R. (2009), Verification of two methods of railway noise propagation, Archives of Acoustics, 34, 2, 177-188.
  • 19. Harmon J.E., Anderson S.J. (2003), The Design and Implementation of Geographic Information Systems, John Wiley & Sons, Inc., New Jersey.
  • 20. Jonasson H., Sandberg U., van Blokland G., Ejsmont J.,Watts G., Luminari M. (2004), Source modelling of road vehicles, Harmonoise Technical Report.
  • 21. Kompala J., Lipowczan A. (2007), Noise hazard to the population of areas connected with functioning of roadway frontier crossings, Archives of Acoustics, 32, 2, 279-286.
  • 22. Kotus J., Kostek B. (2008), The noise-induced harmful effect assessment based on the properties of the human hearing system, Archives of Acoustics, 33, 4, 435-440.
  • 23. Kotus J., Szczodrak M., Czyżewski A., Kostek B. (2010), Long-term comparative evaluation of an acoustic climate in selected schools before and after the acoustic treatment, Archives of Acoustics, 35, 4, 551-564.
  • 24. Kucharski R. (2007), Complex noise indicator for noise mapping based on the EU working groups' and Polish results of the annoyance investigations, Archives of Acoustics, 32, 2, 293-302.
  • 25. Kulowski A. (1991), A modification of ray-tracing acoustics modeling method in rooms, Scientific Books of Gdańsk University of Technology, 494, 1-117.
  • 26. Li K.M., Taherzadeh S., Attenborough K. (1998), An improved ray-tracing algorithm for predicting sound propagation outdoors, J. Acoust. Soc. Am., 104, 4, 2077-2083.
  • 27. NMPB-Routes-96, Road infrastructure noise - Calculation method including weather effects, CERTU, SETRA, LCPC, CSTB, January (1997).
  • 28. Nota R., Barelds R., van Maercke D. (2005), Harmonoise WP 3 Engineering method for road traffic and railway noise after validation and fine-tuning, Harmonoise, Paris.
  • 29. Pawelczyk M. (2008), Active noise control - a review of control-related problems, Archives of Acoustics, 33, 4, 509-520.
  • 30. Popescu D.I., Moholea I.F. (2010), Monitoring the reaction and response of people to urban noise, Archives of Acoustics, 35, 2, 237-244.
  • 31. Probst W. (2009), Strategic noise mapping - can it serve as a tool in city planning?, 16th Intern. Congress on Sound and Vibr., Kraków, 5-9 July.
  • 32. Strategic Noise Maps for the city of Berlin, Germany, last access: 26.06.2008, http://www.stadtentwicklung.berlin.de/umwelt/umweltmap/ed705_01.htm#A2.
  • 33. Szczodrak M., Czyżewski A. (2008), Dynamic noise generation with an application of supercomputer, Scientific Books of Gdańsk University of Technology, Informational Technologies, 16, 306-311.
  • 34. Szczodrak M., Czyżewski A. (2009), Software for calculation of noise maps implemented on the supercomputer, Task Quarterly, 13, 3-4, 363-377.
  • 35. Szczodrak M., Czyżewski A., Kotus J. (2008), Investigation of the road noise source employing an automatic noise monitoring station, Arch. of Acoust. Suppl., 33, 4, 77-83
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0020-0026
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