Ground shaking maps are an essential tool for seismic monitoring and civil defence operations as ... more Ground shaking maps are an essential tool for seismic monitoring and civil defence operations as they provide information about the area and amplitude of the ground motion relative to a seismic event.Such maps are developed integrating spatially sparse data recorded by the stations, which also provide a constraint to the process, and theoretical values obtained from ground motion prediction equations (GMPEs), given the magnitude and location of the earthquake, also accounting for local site effects.One of the problems arising during the development of a real-time implementation of these techniques is the lack of information in real-time needed to compute the GMPE.One possible solution to the problem is to develop algorithms that can constrain the interpolation process using only the ground motion parameters recorded at the stations (Fornasari et al., 2022).We propose a hybrid model combining the conditioned multivariate normal distribution (MVN; Worden et al., 2018) technique adopted by ShakeMap and a neural network replacing the GMPE.The neural network provides a purely data-driven approximation of the GMPE results based only on the spatially sparse data from the stations, with possible correction for the site effects. The network is trained using a supervised approach with labelled data obtained from GMPEs used for the Italian territory. Moreover, by limiting the use of a neural network to a specific task we improve its explainability with respect to end-to-end models.This approach is easily integrable into the existing workflow, combines the well-studied interpolation techniques and neural networks in a clearly explainable structure, and provides high-resolution estimates of the ground-shaking fields in real-time with potential relevance in the context of early warning. References:Simone Francesco Fornasari, Veronica Pazzi, Giovanni Costa; A Machine‐Learning Approach for the Reconstruction of Ground‐Shaking Fields in Real Time. Bulletin of the Seismological Society of America 2022; 112 (5): 2642–2652. doi: https://doi.org/10.1785/0120220034.C. Bruce Worden, Eric M. Thompson, Jack W. Baker, Brendon A. Bradley, Nicolas Luco, David J. Wald; Spatial and Spectral Interpolation of Ground‐Motion Intensity Measure Observations. Bulletin of the Seismological Society of America 2018; 108 (2): 866–875. doi: https://doi.org/10.1785/01201702
Characterization of agricultural soils using geophysical techniques makes it possible to study th... more Characterization of agricultural soils using geophysical techniques makes it possible to study the heterogeneity of a soil and the preferential pathways of water flows without causing disturbances to soil and plants. Increased knowledge of soil heterogeneity allows the most optimal management of the water resource in terms of crop, yield and sustainability. In this study, time lapse monitoring, using electrical resistivity tomography (ERT), is proposed as a reliable and non-invasive technique to quantify the movement of water flows during the irrigation process.ERT surveys were conducted in melon cultivated land in southern Tuscany (Italy). Four survey campaigns were carried out between June and August 2022, in which ERT data were collected by taking measurements, before, during, and after the irrigation phase. The investigation was conducted with a 3-D grid in which the 72 electrodes were spaced 0.3 m apart and arranged in three parallel lines, 0.3 m apart and 6.9 m long, for a tot...
Social media have the potential to significantly influence the disaster risk understanding of nat... more Social media have the potential to significantly influence the disaster risk understanding of natural events of climatic and geological origin, e.g., earthquakes, volcanic eruptions and landslides. Given their considerable diffusion, nowadays they represent a valid support during emergency management processes thanks to their multiple uses in all the different phases of the disaster cycle. The presented results have been achieved carrying out a literature review in the framework of the European H2020 project LINKS ('Strengthening links between technologies and society for European disaster resilience') which aims to strengthen the link between technology and society to improve resilience in four European countries associated with five different risk scenarios. The aim of this research was to investigate how social media influence and impact vulnerability and risk perception and how the increased use of social media as a communication tool during a disaster is shaped by the w...
Ground shaking maps are an essential tool for seismic monitoring and civil defence operations as ... more Ground shaking maps are an essential tool for seismic monitoring and civil defence operations as they provide information about the area and amplitude of the ground motion relative to a seismic event.Such maps are developed integrating spatially sparse data recorded by the stations, which also provide a constraint to the process, and theoretical values obtained from ground motion prediction equations (GMPEs), given the magnitude and location of the earthquake, also accounting for local site effects.One of the problems arising during the development of a real-time implementation of these techniques is the lack of information in real-time needed to compute the GMPE.One possible solution to the problem is to develop algorithms that can constrain the interpolation process using only the ground motion parameters recorded at the stations (Fornasari et al., 2022).We propose a hybrid model combining the conditioned multivariate normal distribution (MVN; Worden et al., 2018) technique adopted by ShakeMap and a neural network replacing the GMPE.The neural network provides a purely data-driven approximation of the GMPE results based only on the spatially sparse data from the stations, with possible correction for the site effects. The network is trained using a supervised approach with labelled data obtained from GMPEs used for the Italian territory. Moreover, by limiting the use of a neural network to a specific task we improve its explainability with respect to end-to-end models.This approach is easily integrable into the existing workflow, combines the well-studied interpolation techniques and neural networks in a clearly explainable structure, and provides high-resolution estimates of the ground-shaking fields in real-time with potential relevance in the context of early warning. References:Simone Francesco Fornasari, Veronica Pazzi, Giovanni Costa; A Machine‐Learning Approach for the Reconstruction of Ground‐Shaking Fields in Real Time. Bulletin of the Seismological Society of America 2022; 112 (5): 2642–2652. doi: https://doi.org/10.1785/0120220034.C. Bruce Worden, Eric M. Thompson, Jack W. Baker, Brendon A. Bradley, Nicolas Luco, David J. Wald; Spatial and Spectral Interpolation of Ground‐Motion Intensity Measure Observations. Bulletin of the Seismological Society of America 2018; 108 (2): 866–875. doi: https://doi.org/10.1785/01201702
Characterization of agricultural soils using geophysical techniques makes it possible to study th... more Characterization of agricultural soils using geophysical techniques makes it possible to study the heterogeneity of a soil and the preferential pathways of water flows without causing disturbances to soil and plants. Increased knowledge of soil heterogeneity allows the most optimal management of the water resource in terms of crop, yield and sustainability. In this study, time lapse monitoring, using electrical resistivity tomography (ERT), is proposed as a reliable and non-invasive technique to quantify the movement of water flows during the irrigation process.ERT surveys were conducted in melon cultivated land in southern Tuscany (Italy). Four survey campaigns were carried out between June and August 2022, in which ERT data were collected by taking measurements, before, during, and after the irrigation phase. The investigation was conducted with a 3-D grid in which the 72 electrodes were spaced 0.3 m apart and arranged in three parallel lines, 0.3 m apart and 6.9 m long, for a tot...
Social media have the potential to significantly influence the disaster risk understanding of nat... more Social media have the potential to significantly influence the disaster risk understanding of natural events of climatic and geological origin, e.g., earthquakes, volcanic eruptions and landslides. Given their considerable diffusion, nowadays they represent a valid support during emergency management processes thanks to their multiple uses in all the different phases of the disaster cycle. The presented results have been achieved carrying out a literature review in the framework of the European H2020 project LINKS ('Strengthening links between technologies and society for European disaster resilience') which aims to strengthen the link between technology and society to improve resilience in four European countries associated with five different risk scenarios. The aim of this research was to investigate how social media influence and impact vulnerability and risk perception and how the increased use of social media as a communication tool during a disaster is shaped by the w...
Il secondo volume della collana «IdA» dedicato a Monte Giovi vuole offrire un’analisi critica del... more Il secondo volume della collana «IdA» dedicato a Monte Giovi vuole offrire un’analisi critica delle evidenze archeologiche emerse sulla vetta del rilievo e presentare alcune considerazioni sulla natura del sito etrusco che, nel nome come nelle testimonianze, rimanda indubbiamente alla sfera religiosa. Più che un punto di arrivo, gli studi racchiusi in questo volume vogliono rappresentare un incipit verso futuri approfondimenti rivolti sia alla conoscenza di Monte Giovi sia, più in generale, del comprensorio mugellano e dell’intero territorio di Fiesole. Negli ultimi decenni importanti ricerche hanno modificato profondamente il quadro delle conoscenze di questo territorio posto nella parte più settentrionale dell’Etruria propria, terra di passaggio e giunzione con il mondo padano. La nuova fase della ricerca archeologica, iniziata da Giuliano De Marinis negli anni Novanta del secolo scorso, dopo le indagini a I Monti (San Piero a Sieve) si è intensificata con gli scavi pluriennali condotti a Poggio Colla (Vicchio) e a San Martino a Poggio (Frascole), entrambi compresi nella valle del Mugello e contemporanei alle scoperte e alle ricerche effettuate sul versante fiorentino, come a Pietramarina e a Gonfienti. Accanto agli isolati nuclei dell’aristocrazia orientalizzante nel territorio fiesolano sono così apparsi nuovi insediamenti e santuari, diversificate produzioni artigianali e importazioni; tutte rivelano nel loro insieme un quadro culturale complesso in parte ridefinito dalla recente pubblicazione di varie carte archeologiche. In questa ottica, l’edizione delle ricerche di Monte Giovi vuole essere un utile termine di confronto verso lo studio e l’auspicabile presentazione di tutti questi importanti contesti che non potranno che modificare e aggiornare molte delle considerazioni contenute nel volume.
This Special Issue comprises selected original papers inherent to the analysis of different types... more This Special Issue comprises selected original papers inherent to the analysis of different types of geological hazards, vulnerability domains, exposure to disaster risk, and risk reduction strategies, including structural and nonstructural methodologies such as plans, behavioral procedures, early warning systems, and more. Traditional approaches are accepted, but innovative and sustainable techniques are also encouraged in the field of spaceborne, aerial, and ground-based activities, even in combination with the objective effects of climate change. Numerical and experimental investigations and case-studies addressing the above key topics are welcome. Such a Special Issue is expected to contribute to progress in the field of responsible geological disaster risk mitigation for human beings and their artifacts.
The EGU General Assembly 2019 will take place in Vienna (Austria) on 7–12 April 2019.
Session ... more The EGU General Assembly 2019 will take place in Vienna (Austria) on 7–12 April 2019.
Session NH3.12: Landslide investigation and modelling in less developed countries (https://meetingorganizer.copernicus.org/EGU2019/session/32479)
Convener: Veronica Pazzi; Co-conveners: Abel Cruz, Víctor Manuel Hernandez Madrigal, Stefano Morelli, Stefano Utili
Among all the natural occurrences, landslides may be regarded as one of the most relevant damaging processes. Geohazards are naturally occurring geological, hydrological or geomorphological phenomena that can potentially cause damage or uncontrolled risk increase to the human beings, their properties or the environment. Extreme natural phenomena causing natural hazards are not deemed as controllable events and sometimes they are perceived to be inevitable. Currently, in many developing countries, characterized by heavy concentration of people in restricted areas, poorly regulated urbanization, and uncontrolled land use, a natural hazard can result in severe effects, even if its original impact was not so critical. Even though the catastrophic impact of landslides in these areas is not totally unavoidable, it can be significantly reduced using different methods of mitigation and increasing the capacity to assess and predict risks caused by geohazards.
Furthermore, 2-D and 3-D numerical modelling methods designed to assess slope stability and perform back-analysis simulations have been developed in recent years to predict the behaviours of unstable slopes and their response to triggers. Nevertheless, such models still require access to detailed knowledge of the geological, mechanical, hydrological properties of landslides and boundary conditions.
This session is planned to collect contributions on the advantages and limitations of mapping and characterizing landslides in developing countries by means of low-cost techniques, in particular non-invasive methods like the geophysical approaches. Moreover, contributions on the reliable constrictions of engineering-geological models and on the optimization of stability analysis outputs and stabilization plans by means of non-invasive techniques are mainly encouraged. However, works that integrate various low cost survey techniques are also encouraged, especially if their application is capable of opening a constructive discussion about the non-invasive methods.
We'd like to inform you that the session has been merged with the NH9.9/AS5.20/GI1.9/HS11.41/SSS1... more We'd like to inform you that the session has been merged with the NH9.9/AS5.20/GI1.9/HS11.41/SSS13.64 Monitoring and modelling of dangerous phenomena: innovative, low-cost techniques, tools and constraint of engineering-geological models for hazard evaluation and risk mitigation (co-organized) session. It will take place according the following scheduling: Orals / Tue, 10 Apr, 13:30–15:00 / Room L8 Posters / Attendance Tue, 10 Apr, 17:30–19:00 / Hall X1 Details about the submitted works are available at: https://meetingorganizer.copernicus.org/EGU2018/orals/26719 https://meetingorganizer.copernicus.org/EGU2018/posters/26719
The EGU General Assembly will take place on 8-13 April 2018 in Vienna (Austria). We would like to... more The EGU General Assembly will take place on 8-13 April 2018 in Vienna (Austria). We would like to invite you to contribute to the following 2018 EGU SESSION:
NH3.15/GI3.20/SSS13.52 Landslides in developing country: advantage and limits in constraining engineering-geological models by means of low-cost techniques (co-organized) Convener: Veronica Pazzi; Co-Conveners: Stefano Morelli, Stefano Utili, Gabriel Rodriguez Roca Link:http://meetingorganizer.copernicus.org/EGU2018/session/27706
Among all the natural occurrences, landslides may be regarded as one of the most relevant damaging processes. Geohazards are naturally occurring geological, hydrological or geomorphological phenomena that can potentially cause damage or uncontrolled risk increase to the human beings, their properties or the environment. Extreme natural phenomena causing natural hazards are not deemed as controllable events and sometimes they are perceived to be inevitable. Currently, in many developing countries, characterized by heavy concentration of people in restricted areas, poorly regulated urbanization, and uncontrolled land use, a natural hazard can result in severe effects, even if its original impact was not so critical. Even though the catastrophic impact of landslides in these areas is not totally unavoidable, it can be significantly reduced using different methods of mitigation and increasing the capacity to assess and predict risks caused by geohazards. Furthermore, 2-D and 3-D numerical modelling methods designed to assess slope stability and perform back-analysis simulations have been developed in recent years to predict the behaviours of unstable slopes and their response to triggers. Nevertheless, such models still require access to detailed knowledge of the geological, mechanical, hydrological properties of landslides and boundary conditions.
This session is planned to collect contributions on the advantages and limitations of mapping and characterizing landslides in developing countries by means of low-cost techniques, in particular non-invasive methods like the geophysical approaches. Moreover, contributions on the reliable constrictions of engineering-geological models and on the optimization of stability analysis outputs and stabilization plans by means of non-invasive techniques are mainly encouraged. However, works that integrate various low cost survey techniques are also encouraged, especially if their application is capable of opening a constructive discussion about the non-invasive methods.
Hoping that the presented topics will catch your attention, we look forward to receiving your contributions, and would be very grateful if you could forward this message to persons who may be interested.
Geohazards are the most relevant processes that can damage or increase the risk of human beings, ... more Geohazards are the most relevant processes that can damage or increase the risk of human beings, properties, critical and transport infrastructures, and environment itself. They also could involve the interruption of human activities. Among all the natural occurrences, landslides may be regarded as one of the most relevant damaging processes. Even though the catastrophic impact of landslides is not totally unavoidable, it can be significantly reduced increasing the capacity to assess and predict the risks and using different methods of mitigation.
In the past years, many 2-D and 3-D numerical modelling methods have been designed and developed to assess slope stability, to predict response to triggers, to evaluate the slope deformation pattern evolution and to perform back-analysis simulations. Nevertheless, such models still require access to detailed knowledge of the geological, mechanical, hydrological properties of landslides and boundary conditions. Therefore, accurate geological field surveys have to be integrated by means of low-cost and non-invasive techniques, like the geophysical ones, to collect widespread data with the aim to reconstruct a suitable geological and hydrogeological model of the area, improving the reliability of deterministic model.
This Special Issue will be dedicated to landslides and geophysics and will make an effort to collect the current knowledge on recent developments and innovative applications of geophysical techniques (active and passive seismic, electrical methods, microgravity) that contribute to understand landslides phenomena. Moreover, contributions on the reliable constrictions of engineering-geological models and on the optimization of stability analysis outputs and stabilization plans by means of non-invasive techniques are mainly encouraged. Submissions on the advantages and limitations of mapping and characterizing landslides by means of low-cost techniques, like the geophysical approaches, are also solicited with special reference to different geomorphological context or in developing countries.
In this Special Issue, interested authors are encouraged to submit their unpublished contributions as original, state‐of-the‐art research, review and even case study papers involving an in-depth and detailed examination of a representative subject of study.
Potential topics include but are not limited to the following:
• Benefits and drawbacks of mapping and characterizing landslides by means of low-cost techniques
• Electrical resistivity tomography and/or induced polarization tomography
• Active and passive seismic slope characterization
• Time-lapse and 4D landslides monitoring
• Self-potential landslides monitoring and rainfall interaction
• Slope modelling
• Rockfall seismic monitoring and modelling
• Constrictions of engineering-geological models
• Stability analysis
• Geophysical mapping and characterization of geological, geotechnical, and hydrogeological landslides parameters
Uploads
Papers by Veronica Pazzi
Negli ultimi decenni importanti ricerche hanno modificato profondamente il quadro delle conoscenze di questo territorio posto nella parte più settentrionale dell’Etruria propria, terra di passaggio e giunzione con il mondo padano. La nuova fase della ricerca archeologica, iniziata da Giuliano De Marinis negli anni Novanta del secolo scorso, dopo le indagini a I Monti (San Piero a Sieve) si è intensificata con gli scavi pluriennali condotti a Poggio Colla (Vicchio) e a San Martino a Poggio (Frascole), entrambi compresi nella valle del Mugello e contemporanei alle scoperte e alle ricerche effettuate sul versante fiorentino, come a Pietramarina e a Gonfienti.
Accanto agli isolati nuclei dell’aristocrazia orientalizzante nel territorio fiesolano sono così apparsi nuovi insediamenti e santuari, diversificate produzioni artigianali e importazioni; tutte rivelano nel loro insieme un quadro culturale complesso in parte ridefinito dalla recente pubblicazione di varie carte archeologiche. In questa ottica, l’edizione delle ricerche di Monte Giovi vuole essere un utile termine di confronto verso lo studio e l’auspicabile presentazione di tutti questi importanti contesti che non potranno che modificare e aggiornare molte delle considerazioni contenute nel volume.
Session NH3.12: Landslide investigation and modelling in less developed countries (https://meetingorganizer.copernicus.org/EGU2019/session/32479)
Convener: Veronica Pazzi; Co-conveners: Abel Cruz, Víctor Manuel Hernandez Madrigal, Stefano Morelli, Stefano Utili
Among all the natural occurrences, landslides may be regarded as one of the most relevant damaging processes. Geohazards are naturally occurring geological, hydrological or geomorphological phenomena that can potentially cause damage or uncontrolled risk increase to the human beings, their properties or the environment. Extreme natural phenomena causing natural hazards are not deemed as controllable events and sometimes they are perceived to be inevitable. Currently, in many developing countries, characterized by heavy concentration of people in restricted areas, poorly regulated urbanization, and uncontrolled land use, a natural hazard can result in severe effects, even if its original impact was not so critical. Even though the catastrophic impact of landslides in these areas is not totally unavoidable, it can be significantly reduced using different methods of mitigation and increasing the capacity to assess and predict risks caused by geohazards.
Furthermore, 2-D and 3-D numerical modelling methods designed to assess slope stability and perform back-analysis simulations have been developed in recent years to predict the behaviours of unstable slopes and their response to triggers. Nevertheless, such models still require access to detailed knowledge of the geological, mechanical, hydrological properties of landslides and boundary conditions.
This session is planned to collect contributions on the advantages and limitations of mapping and characterizing landslides in developing countries by means of low-cost techniques, in particular non-invasive methods like the geophysical approaches. Moreover, contributions on the reliable constrictions of engineering-geological models and on the optimization of stability analysis outputs and stabilization plans by means of non-invasive techniques are mainly encouraged. However, works that integrate various low cost survey techniques are also encouraged, especially if their application is capable of opening a constructive discussion about the non-invasive methods.
DEADLINE FOR ABSTRACT SUBMISSION IS 10 JANUARY 2019
https://meetingorganizer.copernicus.org/EGU2019/session/32479
Only EGU members will be able to submit abstracts to the 2019 meeting and only one abstract as first author will be permitted. Detailed information on how to submit an abstract can be found at:
https://egu2019.eu/abstracts_and_programme/how_to_submit_an_abstract.html
The conveners are considering the publication of a special issue in one of the thematic journals (https://www.egu.eu/publications/open-access-journals/) with the works of the session.
Monitoring and modelling of dangerous phenomena: innovative, low-cost techniques, tools and constraint of engineering-geological models for hazard evaluation and risk mitigation (co-organized) session. It will take place according the following scheduling:
Orals / Tue, 10 Apr, 13:30–15:00 / Room L8
Posters / Attendance Tue, 10 Apr, 17:30–19:00 / Hall X1
Details about the submitted works are available at:
https://meetingorganizer.copernicus.org/EGU2018/orals/26719
https://meetingorganizer.copernicus.org/EGU2018/posters/26719
NH3.15/GI3.20/SSS13.52
Landslides in developing country: advantage and limits in constraining engineering-geological models by means of low-cost techniques (co-organized)
Convener: Veronica Pazzi; Co-Conveners: Stefano Morelli, Stefano Utili, Gabriel Rodriguez Roca
Link:http://meetingorganizer.copernicus.org/EGU2018/session/27706
Among all the natural occurrences, landslides may be regarded as one of the most relevant damaging processes. Geohazards are naturally occurring geological, hydrological or geomorphological phenomena that can potentially cause damage or uncontrolled risk increase to the human beings, their properties or the environment. Extreme natural phenomena causing natural hazards are not deemed as controllable events and sometimes they are perceived to be inevitable. Currently, in many developing countries, characterized by heavy concentration of people in restricted areas, poorly regulated urbanization, and uncontrolled land use, a natural hazard can result in severe effects, even if its original impact was not so critical. Even though the catastrophic impact of landslides in these areas is not totally unavoidable, it can be significantly reduced using different methods of mitigation and increasing the capacity to assess and predict risks caused by geohazards. Furthermore, 2-D and 3-D numerical modelling methods designed to assess slope stability and perform back-analysis simulations have been developed in recent years to predict the behaviours of unstable slopes and their response to triggers. Nevertheless, such models still require access to detailed knowledge of the geological, mechanical, hydrological properties of landslides and boundary conditions.
This session is planned to collect contributions on the advantages and limitations of mapping and characterizing landslides in developing countries by means of low-cost techniques, in particular non-invasive methods like the geophysical approaches. Moreover, contributions on the reliable constrictions of engineering-geological models and on the optimization of stability analysis outputs and stabilization plans by means of non-invasive techniques are mainly encouraged. However, works that integrate various low cost survey techniques are also encouraged, especially if their application is capable of opening a constructive discussion about the non-invasive methods.
Hoping that the presented topics will catch your attention, we look forward to receiving your contributions, and would be very grateful if you could forward this message to persons who may be interested.
The conveners are considering the publication of a special issue in one of the thematic journals (https://www.egu.eu/publications/open-access-journals/) with the works of the session.
Best regards,
Veronica Pazzi, Stefano Morelli, Stefano Utili, Gabriel Rodriguez Roca
DEADLINE FOR ABSTRACTS (http://meetingorganizer.copernicus.org/EGU2018/session/27706):
10 January 2018, 13:00 CET
INSTRUCTIONS FOR ABSTRACT SUBMISSION:
https://www.egu2018.eu/abstract_management/how_to_submit_an_abstract.html
In the past years, many 2-D and 3-D numerical modelling methods have been designed and developed to assess slope stability, to predict response to triggers, to evaluate the slope deformation pattern evolution and to perform back-analysis simulations. Nevertheless, such models still require access to detailed knowledge of the geological, mechanical, hydrological properties of landslides and boundary conditions. Therefore, accurate geological field surveys have to be integrated by means of low-cost and non-invasive techniques, like the geophysical ones, to collect widespread data with the aim to reconstruct a suitable geological and hydrogeological model of the area, improving the reliability of deterministic model.
This Special Issue will be dedicated to landslides and geophysics and will make an effort to collect the current knowledge on recent developments and innovative applications of geophysical techniques (active and passive seismic, electrical methods, microgravity) that contribute to understand landslides phenomena. Moreover, contributions on the reliable constrictions of engineering-geological models and on the optimization of stability analysis outputs and stabilization plans by means of non-invasive techniques are mainly encouraged. Submissions on the advantages and limitations of mapping and characterizing landslides by means of low-cost techniques, like the geophysical approaches, are also solicited with special reference to different geomorphological context or in developing countries.
In this Special Issue, interested authors are encouraged to submit their unpublished contributions as original, state‐of-the‐art research, review and even case study papers involving an in-depth and detailed examination of a representative subject of study.
Potential topics include but are not limited to the following:
• Benefits and drawbacks of mapping and characterizing landslides by means of low-cost techniques
• Electrical resistivity tomography and/or induced polarization tomography
• Active and passive seismic slope characterization
• Time-lapse and 4D landslides monitoring
• Self-potential landslides monitoring and rainfall interaction
• Slope modelling
• Rockfall seismic monitoring and modelling
• Constrictions of engineering-geological models
• Stability analysis
• Geophysical mapping and characterization of geological, geotechnical, and hydrogeological landslides parameters
Submission Deadline: Friday, 30 November 2018
Publication Date: April 2019
Here the link to the special issue: https://www.hindawi.com/journals/ijge/si/483412/cfp/
At this link You can find all the information for the article processing charges: https://www.hindawi.com/journals/ijge/apc/
Here the link to submit a manuscript: https://mts.hindawi.com/login/