Collaborative Guidance and Decision Integration for Hypersonic Reentry Vehicles: A Review
摘要
In highly dynamic reentry scenarios, the collaborative execution of tasks by multiple hypersonic reentry vehicles has emerged as a critical strategy for enhancing mission success rates. However, effective cooperative operations require the command system not only to allocate limited combat resources efficiently to address challenges posed by multiple operational objectives but also to ensure precise guidance under coupled constraints. This paper reviews and analyzes the scheduling decision-making and reentry guidance technologies in hypersonic vehicle collaboration, offering an in-depth discussion based on functional and performance criteria. The study evaluates the applicability, advantages, and inherent limitations of these technologies within multi-hypersonic glide vehicle systems, while exploring how diverse technical approaches can enable coordinated task execution in real-world missions. Furthermore, it examines the adaptability of these technologies in complex environments, emphasizing the challenges of implementing efficient collaboration under multi-objective, multi-constrained, and dynamic conditions. Finally, the paper outlines future research directions and proposes potential pathways for optimizing scheduling and guidance strategies.