The global volcano monitoring infrastructure database (GVMID)
Monitoring volcanoes is of the most importance in volcano risk mitigation to safeguard lives and economies. Thanks to recent technological advances, both on-ground and in space, our understanding of volcanic processes has improved significantly. Though there is no one-system-fits-all, optimizing inf...
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Earth and Environmental Sciences Volcano monitoring Environmental monitoring Widiwijayanti, Christina Nang, Thin Zar Win Espinosa-Ortega, Tania Costa, Fidel Taisne, Benoit The global volcano monitoring infrastructure database (GVMID) |
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Monitoring volcanoes is of the most importance in volcano risk mitigation to safeguard lives and economies. Thanks to recent technological advances, both on-ground and in space, our understanding of volcanic processes has improved significantly. Though there is no one-system-fits-all, optimizing infrastructure for efficient monitoring stands as key objective. The impacts of volcanic hazards can span from local to global scales, affecting us both in the short and long term. This highlights the worldwide significance of improving volcano monitoring. Previously reliant on local ground-based instruments, today’s monitoring approach is enhanced by remote and space-based techniques such as satellite remote sensing, scanning-Differential Optical Absorption Spectroscopy (DOAS), and infrasound. Designing an effective monitoring infrastructure for volcano observatories involves careful consideration of various factors such as network coverage, type of sensors, data transmission, and power supply to ensure that the targeted parameters meet the specific needs of each volcano (e.g., type of activities, early warning systems). Additionally, fostering collaboration and information sharing within the global scientific community is essential for addressing the current challenges in volcanology. In line with this, we’ve established the Global Volcano Monitoring Infrastructure Database (GVMID) to compile data from volcano monitoring across the globe. Global Volcano Monitoring Infrastructure Database serves as an integral component of WOVOdat, the global volcano unrest database, aiming to enhance our understanding of eruptive processes and improve eruption forecasts. The database incorporates monitoring metadata comprising networks, stations, and instruments, all standardized and managed using a MySQL relational database management system. Accessed through a web-based interface (https://wovodat.org/gvmid/home.php), GVMID offers an informative snapshot and foundational overview of the techniques and instruments in place at diverse volcanoes. This interactive platform allows for queries, visualizations, and downloads, serving as a valuable resource for the volcano community. GVMID can assist observatories in various ways, by: (a) Facilitating the setup or enhancement of monitoring systems for specific volcanoes. (b) Providing insights into the latest monitoring technologies and instrumentation. (c) Identifying existing monitoring gaps that could be addressed through remote sensing infrastructure and future instrument deployments. We extend an invitation to the global volcano community to actively participate in the development and enrichment of GVMID. Our aim is for it to become a continually updated and indispensable resource that caters to diverse needs within the volcanology community. |
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Asian School of the Environment |
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Asian School of the Environment Widiwijayanti, Christina Nang, Thin Zar Win Espinosa-Ortega, Tania Costa, Fidel Taisne, Benoit |
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Article |
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Widiwijayanti, Christina Nang, Thin Zar Win Espinosa-Ortega, Tania Costa, Fidel Taisne, Benoit |
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Widiwijayanti, Christina |
| title |
The global volcano monitoring infrastructure database (GVMID) |
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The global volcano monitoring infrastructure database (GVMID) |
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The global volcano monitoring infrastructure database (GVMID) |
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The global volcano monitoring infrastructure database (GVMID) |
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The global volcano monitoring infrastructure database (GVMID) |
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global volcano monitoring infrastructure database (gvmid) |
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2024 |
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https://hdl.handle.net/10356/174827 |
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1800916096468910080 |
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sg-ntu-dr.10356-1748272024-04-15T15:30:47Z The global volcano monitoring infrastructure database (GVMID) Widiwijayanti, Christina Nang, Thin Zar Win Espinosa-Ortega, Tania Costa, Fidel Taisne, Benoit Asian School of the Environment Earth Observatory of Singapore Earth and Environmental Sciences Volcano monitoring Environmental monitoring Monitoring volcanoes is of the most importance in volcano risk mitigation to safeguard lives and economies. Thanks to recent technological advances, both on-ground and in space, our understanding of volcanic processes has improved significantly. Though there is no one-system-fits-all, optimizing infrastructure for efficient monitoring stands as key objective. The impacts of volcanic hazards can span from local to global scales, affecting us both in the short and long term. This highlights the worldwide significance of improving volcano monitoring. Previously reliant on local ground-based instruments, today’s monitoring approach is enhanced by remote and space-based techniques such as satellite remote sensing, scanning-Differential Optical Absorption Spectroscopy (DOAS), and infrasound. Designing an effective monitoring infrastructure for volcano observatories involves careful consideration of various factors such as network coverage, type of sensors, data transmission, and power supply to ensure that the targeted parameters meet the specific needs of each volcano (e.g., type of activities, early warning systems). Additionally, fostering collaboration and information sharing within the global scientific community is essential for addressing the current challenges in volcanology. In line with this, we’ve established the Global Volcano Monitoring Infrastructure Database (GVMID) to compile data from volcano monitoring across the globe. Global Volcano Monitoring Infrastructure Database serves as an integral component of WOVOdat, the global volcano unrest database, aiming to enhance our understanding of eruptive processes and improve eruption forecasts. The database incorporates monitoring metadata comprising networks, stations, and instruments, all standardized and managed using a MySQL relational database management system. Accessed through a web-based interface (https://wovodat.org/gvmid/home.php), GVMID offers an informative snapshot and foundational overview of the techniques and instruments in place at diverse volcanoes. This interactive platform allows for queries, visualizations, and downloads, serving as a valuable resource for the volcano community. GVMID can assist observatories in various ways, by: (a) Facilitating the setup or enhancement of monitoring systems for specific volcanoes. (b) Providing insights into the latest monitoring technologies and instrumentation. (c) Identifying existing monitoring gaps that could be addressed through remote sensing infrastructure and future instrument deployments. We extend an invitation to the global volcano community to actively participate in the development and enrichment of GVMID. Our aim is for it to become a continually updated and indispensable resource that caters to diverse needs within the volcanology community. National Research Foundation (NRF) Published version This research/project is supported by the National Research Foundation, Singapore under its 8th NRF Investigatorship (NRFI) (Award NRF-NRFI08-2022-0015). This work comprises EOS contribution number 545. 2024-04-12T07:54:15Z 2024-04-12T07:54:15Z 2024 Journal Article Widiwijayanti, C., Nang, T. Z. W., Espinosa-Ortega, T., Costa, F. & Taisne, B. (2024). The global volcano monitoring infrastructure database (GVMID). Frontiers in Earth Science, 12, 1284889-. https://dx.doi.org/10.3389/feart.2024.1284889 2296-6463 https://hdl.handle.net/10356/174827 10.3389/feart.2024.1284889 2-s2.0-85185699769 12 1284889 en NRF-NRFI08-2022-0015 Frontiers in Earth Science © 2024 Widiwijayanti, Thin Zar Win, Espinosa-Ortega, Costa and Taisne. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. application/pdf |