Thesis Abstract

Abstract
The utilization of remote sensing technology has emerged as a powerful tool for monitoring and mapping geological hazards. This thesis investigates the application of remote sensing technology in the context of geological hazard assessment, with a focus on its effectiveness and efficiency in enhancing hazard detection and mitigation strategies. The study aims to explore the potential of remote sensing techniques in providing accurate and timely information for the identification, monitoring, and mapping of various geological hazards, such as landslides, earthquakes, volcanic eruptions, and subsidence. The research begins with a comprehensive review of existing literature on remote sensing applications in geological hazard assessment, highlighting the current state-of-the-art technologies and methodologies. The literature review also delves into the challenges and limitations faced in the field, providing a critical analysis of the gaps that exist in current research. In the methodology chapter, the research design and data collection strategies are outlined, including the selection of study areas, remote sensing data acquisition, processing techniques, and hazard mapping methodologies. The study incorporates a multi-sensor approach, utilizing data from various satellite platforms, such as optical, radar, and LiDAR sensors, to enhance the accuracy and reliability of hazard detection. The findings chapter presents a detailed analysis of the remote sensing data collected and processed for different geological hazard scenarios. The results demonstrate the capability of remote sensing technology in detecting and monitoring geological hazards, showcasing its potential for early warning systems and disaster management strategies. The discussion chapter critically evaluates the findings, highlighting the strengths and limitations of the remote sensing techniques employed, and providing recommendations for future research and application. In conclusion, this thesis emphasizes the significance of remote sensing technology in enhancing the monitoring and mapping of geological hazards. The study contributes to the existing body of knowledge by demonstrating the effectiveness of remote sensing techniques in providing valuable insights for hazard assessment and mitigation. The research findings have implications for disaster risk reduction efforts, emergency response planning, and sustainable development initiatives in hazard-prone regions. Keywords Remote Sensing, Geological Hazards, Hazard Monitoring, Hazard Mapping, Disaster Management, Data Processing, Satellite Imagery, Early Warning Systems, Risk Assessment.

Thesis Overview