Diseño de las soluciones de estabilización en el cementerio patrimonial de Guayaquil, Ecuador.

Carballo, Fernando Morante; Briones-Bitar, Josué; Mero, Paúl Carrión; Chávez, Miguel Ángel; Aguilar, Maribel

doi:10.18687/laccei2019.1.1.368

Cited by 3 publications

(1 citation statement)

References 11 publications

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“…Cluster 1, called "Geotechnical engineering" (with 33 occurrences), is the largest study area with 14 words related to this topic and nine nodes. The geotechnical engineering cluster is linked to research on risk assessment on slope stability [248,249], geographic information systems in geotechnical engineering [250], liquefaction during earthquakes [251], the interaction between anti-slip piles and landslides [252], site investigation for disaster reconstruction [253] and the performance of soft soil under the action of thunderstorms [254]. Cluster 2, called "disaster", presents 12 nodes with themes related to debris flow disasters [255][256][257], geotechnical damage caused by earthquakes [258,259], damage to geostructures and slopes caused by heavy rains [258,260], erosion control and disaster prevention [261], debris flow drainage channels with energy dissipation structures in mountainous areas [262], volcanic mountain area disasters caused by an earthquake [263], prediction and assessment of slope-failure hazard based on GIS [232], satellite radar interferometry to delineate burn areas and detect sediment accumulation [260], and mechanical and fluid-dynamic behavior of debris and hyperconcentrated flows [264].…”

Section: Bibliometric Analysis 321 Keyword Co-occurrence Analysismentioning

confidence: 99%

A Systematic Review of the Relationship between Geotechnics and Disasters

et al. 2022

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Landslides, earthquakes, and other natural events can change the landscape and generate human and economic losses, affecting transportation and public service infrastructure. In every geotechnical project, the investigation phase plays a fundamental role in reducing the risk of occurrence and mitigating catastrophes. As a result, governments have created entities to study disasters and identify triggering factors that generate huge losses worldwide. This research aims to conduct a systematic review of the relationship between geotechnics and disasters through bibliometric techniques, scientific production evaluation, and case studies analysis to recognize key topics, methods, and thematic development of the research worldwide. The research methodology consisted of three steps: (1) Database analysis, selection, and combination, (2) bibliometric analysis, and (3) systematic review using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) method. The systematic review with bibliometric analysis collected data from 1973 to 2021, with 1299 academic publications indexed in the Scopus and WoS database. These results indicated a growing trend of annual publications on disasters and their relationship with geotechnical studies, highlighting current issues and technological innovation. The main research trends in disaster risk assessment were topics mainly linked to landslides, earthquakes, liquefaction, and inappropriate analysis models with applications of geophysical methods, laboratory tests, remote sensing, and numerical models.

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Section: Bibliometric Analysis 321 Keyword Co-occurrence Analysismentioning

confidence: 99%

A Systematic Review of the Relationship between Geotechnics and Disasters

et al. 2022

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Proposals for Adaptation of Stabilisation Works for Tourist Purposes and Conservation of Las Cabras Hill, Duran-Ecuador

Álvarez,

Briones-Bitar,

Herrera-Franco

et al. 2023

World Sustainability Series

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Rockfall Research: A Bibliometric Analysis and Future Trends

et al. 2020

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Rockfall is one of the main phenomena in mountainous environments due to its fast and high speed of movement, its unpredictability, and, therefore, the difficulty of identifying signs of instability and detachment of the blocks. Compared to other types of sliding, the proportion of rockfall research is smaller and sometimes little known, but, in the last five years, rapid growth in this area has been shown. Therefore, this research aimed to review the intellectual structure of rockfall, through analysis of scientific production using bibliometric techniques that allow its analysis, knowledge, global evolution, and future trends in rockfall. The research methodology consists of three steps: (1) data compilation, (2) software and data cleaning, and (3) analysis, interpretation, and visualization. This analysis focuses on the period from 1975 to 2019. For the data, a total of 811 academic publications were retrieved from the Scopus database. The results indicate an increasing trend of annual publications on rockfall. This analysis reveals the main topics, countries, and most influential institutions in the world that have carried out relevant research in scientific publications; it also shows the journals that have the most publications. VOSviewer software was adopted to evaluate the co-occurrence of author keywords. Currently, the hotspots rockfall issues mainly include: hazard-risk assessment, remote sensing, and rockfall monitoring. Finally, this article analyzes the limitations of current research and proposes a future direction for the development of new research.

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Diseño de las soluciones de estabilización en el cementerio patrimonial de Guayaquil, Ecuador.

Cited by 3 publications

References 11 publications

A Systematic Review of the Relationship between Geotechnics and Disasters

A Systematic Review of the Relationship between Geotechnics and Disasters

Proposals for Adaptation of Stabilisation Works for Tourist Purposes and Conservation of Las Cabras Hill, Duran-Ecuador

Rockfall Research: A Bibliometric Analysis and Future Trends

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