An Automatic Ground Collision Avoidance System with Reinforcement Learning
Seyyid Osman Sevgili, Atahan Cilan, Mahir Demir, Özgün Can Yürütken, Ümit Can Bekar
TLDR
This paper evaluates an AI-driven Automatic Ground Collision Avoidance System (AGCAS) for advanced jet trainers, enhancing safety and operational capabilities.
Key contributions
- Evaluates an AI-driven Automatic Ground Collision Avoidance System (AGCAS) for advanced jet trainers.
- Designed to operate effectively within a limited observation space for collision avoidance.
- Utilizes line-of-sight queries on a terrain server for precise and efficient avoidance.
- Significantly enhances safety and operational capabilities of advanced jet trainers.
Why it matters
Integrating AI into aerospace is crucial for advancing operations with improved timing and efficiency. This AI-driven AGCAS significantly enhances the safety and operational capabilities of advanced jet trainers, addressing a critical need in aviation.
Original Abstract
This article evaluates an artificial intelligence (AI)-based Automatic Ground Collision Avoidance System (AGCAS) designed for advanced jet trainers to enhance operational effectiveness. In the continuously evolving field of aerospace engineering, the integration of AI is crucial for advancing operations with improved timing constraints and efficiency. Our study explores the design process of an AI-driven AGCAS, specifically tailored for advanced jet trainers, focusing on addressing the AGCAS problem within a limited observation space. The system utilizes line-of-sight queries on a terrain server to ensure precise and efficient collision avoidance. This approach aims to significantly improve the safety and operational capabilities of advanced jet trainers.
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