This exploration paper investigates the operation of deep underpinning literacy(DRL) for enabling independent drone navigation in cluttered surroundings. Navigating drones in cluttered spaces poses significant challenges due to the presence of obstacles and dynamic environmental conditions. Traditional navigation approaches frequently struggle to acclimatize to these complications. In this study, we propose a new frame using DRL ways to enable drones to autonomously navigate through cluttered surroundings while avoiding obstacles. The frame employs a deep neural network to learn a policy that guides the drone’s conduct grounded on environmental compliances. Through expansive simulations and real-world trials, we demonstrate the efficacity of the proposed approach in achieving robust and adaptive drone navigation in cluttered surroundings. The findings of this exploration have significant counteraccusations for colorful operations, including hunt and deliverance operations, surveillance, and package delivery, where independent drone navigation in cluttered spaces is pivotal.
Deep Reinforcement Learning for Autonomous Drone Navigation in Cluttered Environments
09.05.2024
532746 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Robotic Planetary Exploration : Autonomous Navigation in Cluttered Unknown Environments
British Library Conference Proceedings | 2012
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