The increasing number and severity of global catastrophes require innovative solutions to support response and recovery efforts. Traditional methods tend to be hindered by speed, accessibility, and overall effectiveness, making cutting-edge technological interventions essential. This paper explores the intersection of Artificial intelligence (AI) and unmanned aerial vehicles (UAVs), also referred to as drones, which can potentially transform disaster management and humanitarian assistance. In aerial vehicles, AI amplifies capability by integrating technologies like machine learning, deep learning, computer vision, natural language processing, and autonomous navigation. These developments allow drones to operate beyond simple remote control, such that they are able to examine images, navigate autonomously through complex environments, and make real-time decisions about the data they capture. Through the integration of AI, drones become able to perform tasks with minimal human interaction. Drones are crucial in responding to disasters as they quickly map affected areas, assist search and rescue efforts, and determine damage. They can also be used in infrastructure inspections, fire surveillance, and flooding assessment. Humanitarian operations benefit from drones as they provide critical supplies to out-of-the-way places, facilitate communication, and aid in planning logistics. The evolution of aerial technology allows quicker and more effective disaster control and humanitarian support.
AI-Drones, Disaster Management, Humanitarian Relief, Aerial Assistance, Autonomous Navigation, Computer Vision, Machine Learning, Search and Rescue, Damage Assessment, Remote Sensing