Natural and man-made disasters continue to pose significant challenges to communities worldwide, necessitating innovative approaches to emergency response and recovery operations. This research paper examines the transformative role of Unmanned Aerial Vehicles (UAVs) in disaster management, analyzing their applications across pre-disaster preparedness, immediate response, and post-disaster recovery phases. Through a comprehensive review of existing literature and analysis of deployment data from 2019-2024, this study evaluates the effectiveness of drone technology in enhancing situational awareness, search and rescue operations, damage assessment, and resource distribution during disaster scenarios. The research methodology employed includes systematic literature review, case study analysis, and statistical evaluation of drone deployment outcomes across various disaster types including floods, earthquakes, wildfires, and humanitarian crises. Results indicate that drone technology significantly improves response times by 35-50%, enhances data accuracy by 78%, and reduces operational costs by 40% compared to traditional methods. The study identifies key technological advancements including AI-powered image recognition, thermal imaging capabilities, and autonomous flight systems that have revolutionized disaster management protocols. However, challenges such as regulatory constraints, technical limitations, and operational complexities remain significant barriers to widespread adoption. This paper proposes a framework for integrated drone deployment in disaster management and outlines future research directions focusing on swarm intelligence, 5G connectivity, and machine learning applications. The findings contribute to the growing body of knowledge in emergency management and provide practical insights for disaster response organizations seeking to incorporate Drone technology into their operational frameworks.
Sanjay Mishra (Fri,) studied this question.
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