The microelectromechanical systems (MEMS) accelerometer built into a smart meter (SM) has a nominal digital resolution of 16 bits. However, this resolution collapses to 7 bits of information per sample when used in an urban environment. This collapse in resolution limits the sensitivity required to effectively operate the earthquake early warning platform (EEWP). In this study, we evaluate the performance of the MEMS sensor in present SMs with respect to a reference sensor, with a special focus on its poor noise power spectral density (PSD, ). We also explore the general capacity of the SM in an IoT-based EEWP and provide explicit information regarding the 16-bit digital MEMS accelerometer. Then, we investigate the functionality of the sensor in the context of event detection in the presence of background vibration. When the value of acceleration root mean square (RMS) exceeds 20 mg, the meter’s error decreases to <20%, whereas the peak ground acceleration error decreases to <20% for the peak value greater than ~70 mg. The MEMS sensor is unreliable for motions with a peak acceleration of less than 148 mg or those with an RMS value less than 46 mg. However, we note that SMs exhibit reasonable amplitude and phase coherence for frequencies above 1 Hz with respect to the reference accelerometer. To enhance the sensitivity, averaging 1000 coherent accelerometer observations enhances the digital resolution to 14 bits, which allows the efficient usage of the network bandwidth. Since the accelerometer is used as an anti-tampering mechanism, the SM is similar to a tiltmeter. Therefore, it is necessary to reconfigure SMs for early warning systems. Despite the challenges, the use of SM for an IoT-based EEWP is technically feasible.
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Research Article|
August 01, 2021
On the feasibility of IoT-based smart meters for earthquake early warning
Alireza Taale, M.EERI;
1
Earthquake Engineering Research Facility, Vancouver, BC, Canada2
Complex System Integration Center, Vancouver, BC, CanadaAlireza Taale, Earthquake Engineering Research Facility, 2235 East Mall, Vancouver, BC V6T 1Z4, Canada. Email: [email protected]
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Carlos E Ventura;
Carlos E Ventura
1
Earthquake Engineering Research Facility, Vancouver, BC, Canada2
Complex System Integration Center, Vancouver, BC, Canada
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Jose Marti
Jose Marti
2
Complex System Integration Center, Vancouver, BC, Canada
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1
Earthquake Engineering Research Facility, Vancouver, BC, Canada2
Complex System Integration Center, Vancouver, BC, Canada
Carlos E Ventura
1
Earthquake Engineering Research Facility, Vancouver, BC, Canada2
Complex System Integration Center, Vancouver, BC, Canada
Jose Marti
2
Complex System Integration Center, Vancouver, BC, CanadaAlireza Taale, Earthquake Engineering Research Facility, 2235 East Mall, Vancouver, BC V6T 1Z4, Canada. Email: [email protected]
Publisher: Earthquake Engineering Research Institute
Received:
18 Sep 2019
Accepted:
12 Nov 2020
First Online:
17 Nov 2021
Online ISSN: 1944-8201
Print ISSN: 8755-2930
© The Author(s) 2021
Earthquake Engineering Research Institute
Earthquake Spectra (2021) 37 (3): 2066–2083.
Article history
Received:
18 Sep 2019
Accepted:
12 Nov 2020
First Online:
17 Nov 2021
Citation
Alireza Taale, Carlos E Ventura, Jose Marti; On the feasibility of IoT-based smart meters for earthquake early warning. Earthquake Spectra 2021;; 37 (3): 2066–2083. doi: https://doi.org/10.1177/8755293020981964
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