Rock landslide is one of the common geological disasters in the world, characterized by complex causes, wide distribution, strong concealment and suddenness, which result in great harm to people’s life and property. However, the early identification and warning technology of rock landslides have been difficult to achieve effectively. Therefore, it has important theoretical significance and application value to carry out a risk assessment and stability analysis for rock landslides, realize its early warning and implement effective control measures. New monitoring technologies, theoretical models of instability and multi-source monitoring indicators provide new opportunities for early identification, monitoring and early warning of rock landslides.
Recently, studies on the mechanism of rock landslides, identification of dangerous rocks and stability evaluation methods have improved the level of early warning technology for rock landslides. This improved technology has been applied in the identification of dangerous rocks achieving remarkable results. However, there are still many deficiencies in the quantitative identification of rock landslides, real-time stability evaluation, and monitoring indicators applicable to the field. This Research Topic aims to present the latest risk assessment methods for identifying dangerous rocks, dynamic stability assessment techniques, early monitoring and warning systems, and reinforcement measures.
The scope of this Research Topic is mainly about the quantitative identification of dangerous rock, the risk assessment of rock landslide instability precursors, the application research of new monitoring and early warning technology systems, and the corresponding control and reinforcement measures, so as to improve the early warning technology of rock landslide and reduce the harm caused by rock landslide.
The subtopics include but are not limited to the following:
• Analysis of the causative mechanism and disaster-causing factors of rock landslides.
• Rock dynamics and failure precursor of rock collapse.
• Quantitative dynamic damage identification of unstable rock or rock landslide.
• Risk and stability assessment method for rock landslide.
• Application research of new monitoring technology for rock landslides and establishment of the early warning index system.
• Construction of early warning system and reinforcement measures for rock landslide.
Rock landslide is one of the common geological disasters in the world, characterized by complex causes, wide distribution, strong concealment and suddenness, which result in great harm to people’s life and property. However, the early identification and warning technology of rock landslides have been difficult to achieve effectively. Therefore, it has important theoretical significance and application value to carry out a risk assessment and stability analysis for rock landslides, realize its early warning and implement effective control measures. New monitoring technologies, theoretical models of instability and multi-source monitoring indicators provide new opportunities for early identification, monitoring and early warning of rock landslides.
Recently, studies on the mechanism of rock landslides, identification of dangerous rocks and stability evaluation methods have improved the level of early warning technology for rock landslides. This improved technology has been applied in the identification of dangerous rocks achieving remarkable results. However, there are still many deficiencies in the quantitative identification of rock landslides, real-time stability evaluation, and monitoring indicators applicable to the field. This Research Topic aims to present the latest risk assessment methods for identifying dangerous rocks, dynamic stability assessment techniques, early monitoring and warning systems, and reinforcement measures.
The scope of this Research Topic is mainly about the quantitative identification of dangerous rock, the risk assessment of rock landslide instability precursors, the application research of new monitoring and early warning technology systems, and the corresponding control and reinforcement measures, so as to improve the early warning technology of rock landslide and reduce the harm caused by rock landslide.
The subtopics include but are not limited to the following:
• Analysis of the causative mechanism and disaster-causing factors of rock landslides.
• Rock dynamics and failure precursor of rock collapse.
• Quantitative dynamic damage identification of unstable rock or rock landslide.
• Risk and stability assessment method for rock landslide.
• Application research of new monitoring technology for rock landslides and establishment of the early warning index system.
• Construction of early warning system and reinforcement measures for rock landslide.