TempFuser: Learning Tactical and Agile Flight Maneuvers in Aerial Dogfights using a Long Short-Term Temporal Fusion Transformer
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Aerial dogfights necessitate understanding the tactically changing maneuvers from a long-term perspective, along with the rapidly changing aerodynamics from a short-term view. In this paper, we propose a novel long short-term temporal fusion transformer (TempFuser) for a policy network in aerial dogfights. Our method uses two LSTM-based input embeddings to encode long-term, sparse state trajectories, as well as short-term, dense state trajectories. By integrating the two embeddings through a transformer encoder, the method subsequently derives end-to-end flight commands for agile and tactical maneuvers. We formulate a deep reinforcement learning framework to train our TempFuser-based policy model. We then extensively validate our model, demonstrating that it outperforms other baseline models against a diverse range of opponent aircraft in a high-fidelity environment. Our model successfully learns basic fighter maneuvers, human pilot-like tactical maneuvers, and robust supersonic pursuit in low altitudes without explicitly coded prior knowledge. Videos are available at <https://sites.google.com/view/tempfuser>
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