受限三体问题中周期轨道的生成设计

Alvaro Francisco Gil, Walther Litteri, Victor Rodriguez-Fernandez, David Camacho, Massimiliano Vasile
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引用次数: 0

摘要

几个世纪以来,三体问题一直令科学家们着迷,它对现代太空任务的设计至关重要。生成人工智能的最新发展为解决这一长期存在的问题带来了变革性的希望。我们利用环形受限三体问题(CR3BP)中周期轨道的综合数据集来训练捕捉关键轨道特征的深度学习架构,并为生成的轨迹设定了物理评估指标。通过这项研究,我们试图加深对生成式人工智能如何改进太空任务规划和天体动力学研究的理解,从而在该领域开发出数据驱动的新方法。
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Generative Design of Periodic Orbits in the Restricted Three-Body Problem
The Three-Body Problem has fascinated scientists for centuries and it has been crucial in the design of modern space missions. Recent developments in Generative Artificial Intelligence hold transformative promise for addressing this longstanding problem. This work investigates the use of Variational Autoencoder (VAE) and its internal representation to generate periodic orbits. We utilize a comprehensive dataset of periodic orbits in the Circular Restricted Three-Body Problem (CR3BP) to train deep-learning architectures that capture key orbital characteristics, and we set up physical evaluation metrics for the generated trajectories. Through this investigation, we seek to enhance the understanding of how Generative AI can improve space mission planning and astrodynamics research, leading to novel, data-driven approaches in the field.
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