Characterizing Broadband Seismic Noise in Central London

Green, David N.; Bastow, I. D.; Dashwood, Ben; Nippress, S.

doi:10.1785/0220160128

Cited by 48 publications

(50 citation statements)

References 27 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…4a ). At high frequencies, individual passages of subway trains are recognized in the 20–40 Hz band, coherently to observations described in different cities worldwide, as Cologne 22 , Long Beach 7 , Beijing 24 , London 11 or Auckland 10 . Figure 4a shows a clear relationship between the observed peaks and train passages, with in the passage interval increasing progressively after 22:00 local time and during Saturdays and Sundays.…”

Section: Discussion On the Origin Of The Observed Seismic Signalssupporting

confidence: 81%

“…Recently, Green et al . 11 have analyzed a network of 5 broad-band seismometers operated in central London during about one month. Again, human generated signals dominate most of the seismic spectra, except for the microseismic secondary peak (0.16–0.5 Hz) and vibrations related to subway circulation are observed both at high and low frequencies.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Urban Seismology: on the origin of earth vibrations within a city

Díaz

Ruiz

Sánchez‐Pastor

et al. 2017

Sci Rep

110

View full text Add to dashboard Cite

Urban seismology has become an active research field in the recent years, both with seismological objectives, as obtaining better microzonation maps in highly populated areas, and with engineering objectives, as the monitoring of traffic or the surveying of historical buildings. We analyze here the seismic records obtained by a broad-band seismic station installed in the ICTJA-CSIC institute, located near the center of Barcelona city. Although this station was installed to introduce visitors to earth science during science fairs and other dissemination events, the analysis of the data has allowed to infer results of interest for the scientific community. The main results include the evidence that urban seismometers can be used as a easy-to-use, robust monitoring tool for road traffic and subway activity inside the city. Seismic signals generated by different cultural activities, including rock concerts, fireworks or football games, can be detected and discriminated from its seismic properties. Beside the interest to understand the propagation of seismic waves generated by those rather particular sources, those earth shaking records provide a powerful tool to gain visibility in the mass media and hence have the opportunity to present earth sciences to a wider audience.

show abstract

Section: Discussion On the Origin Of The Observed Seismic Signalssupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Urban Seismology: on the origin of earth vibrations within a city

Díaz

Ruiz

Sánchez‐Pastor

et al. 2017

Sci Rep

110

View full text Add to dashboard Cite

show abstract

“…Long-term monitoring plays an important role when a structure is subjected to high vibration levels, such as those induced by traffic or construction sites (Wyjadlowski, 2017), or when the structure is located in high-seismicity areas (Celebi, 2017, Todorovska, 2009, Trifunac, 1970. More recently, the study of the dynamic effects on buildings of the surrounding environment has became a challenging research topic, involving disparate expertise from the fields of physics, geology and engineering, and sometimes referred to as "urban seismology" (Diaz et al, 2017), (Green et al, 2016), (Ritter et al 2005). Moreover, the recent availability of low-cost measurement devices has encouraged the testing of large accelerometer networks for monitoring purposes (Barsocchi et al, 2018), (D'Alessandro et al, 2018), (Clementi et al, 2018), including through participative approaches as in (Matarazzo et al, 2018), where citizens were directly involved in monitoring the vibrations of bridges with their own smartphones (which are normally equipped with MEMS devices to measure accelerations).…”

Section: Introductionmentioning

confidence: 99%

Ambient Vibrations of Age-old Masonry Towers: Results of Long-term Dynamic Monitoring in the Historic Centre of Lucca

Azzara

Girardi

Iafolla

et al. 2019

International Journal of Architectural Heritage

View full text Add to dashboard Cite

The paper presents the results of an ambient vibration monitoring campaign conducted on so-called "Clock Tower" (Torre delle Ore), one the best known and most visited monuments in the historic centre of Lucca. The vibrations of the tower were continuously monitored from November 2017 to March 2018 using high-sensitivity instrumentation. In particular, four seismic stations provided by the Istituto Nazionale di Geofisica e Vulcanologia and two three-axial accelerometers developed by AGI S.r.l., spin-off of the Istituto Nazionale di Astrofisica, were installed on the tower. The measured vibration level was generally very low, since the structure lies in the middle of a limited traffic area. Nevertheless, the availability of two different types of highly sensitive and accurate instruments allowed the authors to follow the dynamic behaviour of the tower during the entire monitoring period and has moreover provided cross-validation of the results.

show abstract

“…Based on these characteristics we de ned ve frequency classes, and classi ed the average noise level at each station in these. Even with anthropogenic seismic noise, the averaged noise level strongly re ected the ease of shaking or the ampli cation due to the soft sediments [21][22][23] . McNamara and Buland 3 observed the strongest noise levels in the frequency range >1 Hz due to the large human population in the United States, however, at the scale of our study, the geological effect (i.e., soft sediments) was larger.…”

Section: Discussionmentioning

confidence: 99%

“…These correspond to the youngest sediments 21 . The noise level strength likely re ected the ease of shaking or ampli cation due to soft sediments 22,23 . The energy in the frequency range >20 Hz was much smaller than that for the lower frequency range.…”

Section: Frequency Rangesmentioning

confidence: 99%

Temporal changes in anthropogenic seismic noise levels associated with economic and leisure activities during the COVID-19 pandemic

Nimiya

Ikeda

Tsuji

2020

Preprint

View full text Add to dashboard Cite

Seismic noise of frequencies >1 Hz includes noise that is strongly related to human activities. Reduction in seismic noise during the COVID-19 pandemic has been observed worldwide as restrictions were imposed on numerous human activities to control outbreaks of the virus. In this context, we studied the effect of reduced anthropogenic activities during COVID-19 on the noise levels in the Tokyo metropolitan area, Japan, considering seasonal variation. A significant reduction in noise was observed during the emergency, including that of frequencies >20 Hz, which was associated with school activities. After lifting the state of emergency, noise reverted to previous levels immediately for weekdays, but gradually for Sunday. This was likely because economic activities instantly resumed post-emergency on weekdays; however, most people still continued to avoid non-essential outings on Sunday. We also observed seasonal variation related to school holidays, energy consumption, and industrial activity. Noise levels in the frequency range of 1–5 Hz were found to be related to construction activity, which increased in winter and gradually decreased from 2017. Our findings demonstrate that seismic noise can be used to monitor economic activities and movement of people at a local scale.

show abstract

Characterizing Broadband Seismic Noise in Central London

Cited by 48 publications

References 27 publications

Urban Seismology: on the origin of earth vibrations within a city

Urban Seismology: on the origin of earth vibrations within a city

Ambient Vibrations of Age-old Masonry Towers: Results of Long-term Dynamic Monitoring in the Historic Centre of Lucca

Temporal changes in anthropogenic seismic noise levels associated with economic and leisure activities during the COVID-19 pandemic

Contact Info

Product

Resources

About