Development of Methodological Approaches to Organizing Monitoring of Road Traffic Noise Exposure of the Population

Introduction: Residents of modern cities and settlements are constantly exposed to noise. Excessive noise mainly attributed to road traffic ranks high among the complaints of the general population about living conditions. Careful selection of measuring sites plays an important role in monitoring noise exposure of the population. Current regulations and guidelines set the requirements for measuring and evaluating noise levels in a territory but provide no common approach to determining and selecting priority areas and noise measurement points, to establishing and substantiating appropriate observation periods, and to assessing health risks based on the exposure data.

Materials and methods: In situ measurements were taken in residential areas of the historical center (four observation groups with 12 addresses) and new districts of the city (two observation groups with six addresses). Noise levels were measured at three points per address with three 5-minute measurements at a height of 1.5 ± 0.1 m above the ground taken per point. Points with the highest noise exposure levels were selected for organization of acoustic monitoring.

Results and discussion: Six major observation groups were formed at 18 urban addresses. The results of measurement showed that statistically significant comparable levels of equivalent and maximum sound were registered in each group based on the same criteria and standard indicators. Grouping of addresses with similar or identical characteristics of observation zones will enable establishing noise exposures without conducting full-scale measurements. Additional observation groups can be formed in the presence of other indicators. Grouping of priority zones by location in observation groups will help register noise levels with minimal effort.

Conclusions: Priority zones, points, periods of monitoring and surveillance in observation groups were established and justified. The findings served as the basis for elaboration of method approaches to monitoring and surveillance of road traffic noise exposure. Application of these approaches will contribute to increasing the efficiency of monitoring noise exposures of the population.

1. Chubirko MI, Stepkin YuI, Seredenko OV. Hygienic assessment of noise factor of the large city. Gigiena i Sanitariya. 2015;94(9):37–38. (In Russ.)

2. Stihova AM, Novicova TK, Jmirko TG. Influence of noise of traffic streams on the city environment. Vestnik Gosudarstvennogo Morskogo Universiteta Imeni Admirala F.F. Ushakova. 2015;(3(12)):40–42. (In Russ.)

3. Golenkov VA, Vasilyeva VV. A comprehensive assessment of the impact of transport on the acoustic environment of urban areas. In: Information Technologies and Innovations in Transport: Proceedings of the International Scientific and Practical Conference, Orel, May 19-20, 2015. Novikov AN, ed. Orel: State University – Educational, Research and Production Complex Publ., 2015:168–178. (In Russ.)

4. Dryabzhinsky OE. [Negative effect of motor transport. The problem of noise pollution.] Sovremennye Tendentsii Razvitiya Nauki i Tekhnologii. 2015;(8–4):91–94. (In Russ.)

5. Koshurnikov DN. [Dynamic assessment of health risks for the population of a large industrial city from noise exposure.] In: Protection against Excessive Noise and Vibration: Proceedings of the Fifth All-Russian Scientific and Practical Conference with International Participation, St. Petersburg, March 18-20, 2015. Ivanov NI, еd. St. Petersburg: Icing LLC Publ., 2015:246–255. (In Russ.)

6. Vasilyeva VV. Analysis noise impact on the city transport, environment and people. In: Current Issues of Innovative Development of the Transport Complex: Proceedings of the Second International Scientific and Practical Conference, Orel, April 2–25, 2012. Orel: State University – Educational, Research and Production Complex Publ., 2012:118–121. (In Russ.)

7. Voloshenkova NS, Voloshenkova GS, Abramova NA, Berestova EG. [Human health effects of road traffic noise.] In: Innovations in Science and Education: Proceedings of the

8. International (Correspondence) Scientific and Practical Conference, Prague, Czech Republic, April 29, 2016. Vostretsov AI, ed. Neftekamsk: Mir Nauki Publ., 2016:31–35. (In Russ.)

9. Molotkov SA, Kulakova EV. [Effects of road traffic noise on the environment.] In: Technospheric Safety in the Agro-Industrial Complex: Proceedings of the All-Russian Scientific Conference, Orel, April 26, 2018. Orel: Orel State Agricultural University Publ., 2018:140–146. (In Russ.) 9. Kondrashova IN, Kondykova NN, Tyapkina AP. The effect of vehicles on acoustic city environment. Mir Transporta i Tekhnologicheskikh Mashin. 2019;(2(65)):104–109. (In Russ.)

10. Gorodnichev SS, Levshina KV, Vasileva VV. Monitoring of the acoustic environment of the urban area. In: Modern Automotive Materials and Technologies (Summit – 2019): Proceedings of the Eleventh International Scientific and Technical Conference, Kursk, October 25, 2019. Kursk: Southwestern State University Publ., 2019:58–62. (In Russ.)

11. Gorin VA, Klimenko VV, Akulinina YuS. Noise protection rail transport in the cities for its reduction. Nauchnye Trudy KubGTU (E-edition). 2019;(2):32–37. (In Russ.)

12. Potapova EV, Sokolova OE, Kurganskaya SV. Noise of cities. Sovremennye Nauchnye Issledovaniya i Razrabotki. 2016;(7(7)):196–198. (In Russ.)

13. Kopytenkova OI, Afanaseva TA, Burnashov LB, Kuznetsova EB. Hygienic assessment of interventions for reducing excessive acoustic impact on residential areas. Gigiena i Sanitariya. 2019;98(6):671–676. (In Russ.) doi: 10.18821/0016-9900-2019-98-6-671-676

14. Kovalev AO. [Analysis of noise exposure as an important aspect of monitoring the quality of life of the population.] Vestnik Sovremennykh Issledovaniy. 2018;(7.1(22)):292–293. (In Russ.)

15. Parsaev EV, Teterina IA. Noise of urban traffic flows: an overview of measurement methods. In: Education. Transport. Innovations. Construction: Proceedings of the National Scientific and Practical Conference, Omsk, April 19-20, 2018. Omsk: Siberian State Automobile and Highway University (SibADI) Publ., 2018:312–315. (In Russ.)

16. Petrova YuYu, Solomonova AR, Ovsyannikov KS. [Methods of acoustic measurements and compilation of urban noise maps.] In: Proceedings of the 61st University Scientific and Technical Conference of Students and Young Scientists, Tomsk, April 23–24, 2015. Tomsk: Tomsk State University of Architecture and Civil Engineering Publ., 2015:600–604. (In Russ.)

17. Volkodaeva MV, Ilyina YaA. [On measuring of noise exposure from road traffic flows (on the example of St. Petersburg).] In: Technical Sciences: A Modern View on the Study of Urgent Problems: Proceedings of the International Scientific and Practical Conference, Astrakhan, July 25, 2016. Astrakhan: Institute for Innovative Technologies Publ., 2016:110–115. (In Russ.)

18. Sherstyuchenko OA. [Assessment of road traffic noise exposure and ways to reduce the noise burden.] In: Science, Technology and Life: Proceedings of the International Scientific Conference, Karlovy Vary – Moscow, December 24–25, 2015. Savva LI, Marasanov AI, Podoprigora AV, Gurnovich TG, eds. Kirov: International Center for Research Projects Publ., 2016:176–185. (In Russ.)

19. Zakharov YuI, Zakharov VYu, Sankov PN. [Placement of urban development objects with account for adverse health effects of traffic noise exposure.] In: Protection of Population from Excessive Noise Exposure: Proceedings of the Third All-Russian Scientific and Practical Conference with International Participation, St. Petersburg, March 22–24, 2011. Ivanov NI, ed. St. Petersburg: INNOVA Publ., 2011:455–463. (In Russ.)

20. Zuev AV, Fedotova IV, Nekrasova MM. Impact of traffic flow upon acoustic regimen in areas near highways. Avtomobil'. Doroga. Infrastruktura. 2017;(1(11)):11. (In Russ.)

21. Lagutina NV, Novikov AV, Sumarukova OV. Assessment of noise level changes from land transport in Moscow. In: Protection against Excessive Noise and Vibration: Proceedings of the Seventh All-Russian Scientific and Practical Conference with International Participation, St. Petersburg, March 19-21, 2019. Ivanov NI, еd. St. Petersburg: Institute of Acoustic Structures Publ., 2019:534–542. (In Russ.)

22. Drobyazko EG, Zyryanov SB. [The problem of urban noise.] In: Innovative Technologies in Agricultural Production: Proceedings of the Interregional Scientific and Practical Conference, Yekaterinburg, March 12–13, 2020. Yekaterinburg: Ural State Agricultural University Publ., 2020:194–196. (In Russ.)

23. Batishcheva OM, Papshev VA, Kovalik SO. [Development of measures to reduce noise exposure at a section of the road network.] In: Actual Problems of the Motor Transport Complex: Interuniversity Collection of Scientific Articles (with international participation). Samara: Samara State Technical University Publ., 2017:155–165. (In Russ.)