Feasibility study for detecting shallow landslides using IoT devices in smart cities

Feasibility study for detecting shallow landslides using IoT devices in smart cities

Inertial sensors are considered a new strategy to assess the slope movement prior to landslides in risk areas. It is a challenge to understand limitations, advantages, and disadvantages of the signals analysis from inertial sensors embedded in IoT devices for monitoring this phenomenon. Landslides c...

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Bibliographic Details
Published in:2021 IEEE International Smart Cities Conference (ISC2) pp. 1 - 6
Main Authors: Santos, Alessandro S., Corsi, Alessandra C., Almeida, Rynaldo Z. H., Noda, Mauro K., Goncales, Icaro, Ribeiro, Rodrigo N., Machado, Cezar O., Polkorny, Matheus, Otero, Malena D'Elia, Abreu, Ana Elisa S., Azevedo, Caio, Spinola, Mauro
Format: Conference Proceeding
Language:English
Published: IEEE 07-09-2021
Subjects:
Inertial sensors
Landslides
Performance evaluation
Sensor phenomena and characterization
Sensor systems
Smart cities
Soil
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Summary:Inertial sensors are considered a new strategy to assess the slope movement prior to landslides in risk areas. It is a challenge to understand limitations, advantages, and disadvantages of the signals analysis from inertial sensors embedded in IoT devices for monitoring this phenomenon. Landslides can take a long time to collapse completely, and collecting data in real situations can imply a long-term collection, with no guarantees of recording the phenomenon. Promoting accelerated experiments can be an alternative for evaluating algorithms to detect soil movement. Therefore, this paper presents the results of two experiments performed for data collection by inertial sensors deployed in sandy soil in a dump truck. The signals were collected during sand unloading to evaluate the performance of the IoT devices in events similar to a landslide phenomenon.
ISSN:2687-8860
DOI:10.1109/ISC253183.2021.9562839