Underwater surveillance and mapping are critical components of numerous underseas operations, spanning marine research, environmental monitoring, infrastructure inspection, and beyond. In this context, the role of drones is pivotal, offering a safe and efficient means of exploring the depths. However, existing underwater drones encounter persistent challenges, including propeller failure from external forces and technical errors related to battery life, buoyancy control, and connectivity. These obstacles hinder mission efficiency and data integrity.
The proposed project seeks to address these challenges by designing and constructing a next-generation underwater drone capable of excelling in underseas missions with efficiency and reliability. Not only will this drone fulfill the fundamental tasks of surveillance and mapping, but it will also embody unique design features that set it apart from existing solutions.
Key objectives of this project encompass designing a drone with innovative features for efficient navigation and data collection in underwater environments, implementing robust mechanisms to mitigate propeller failure caused by external forces, and developing sophisticated systems for managing battery power, buoyancy, and connectivity to minimize technical errors. Through a fusion of advanced engineering, cutting-edge technology, and unwavering commitment to reliability, this project aims to deliver a one-of-a-kind underwater drone.