SS 18

本专题聚焦复杂系统工程与装备安全保障前沿研究方向，围绕复杂系统向智能化、网络化及高集成度的发展方向，针对系统规模与交互复杂度呈指数级增长的需求，挑战传统的可靠性分析方法，围绕复杂系统多域耦合、人机协同、动态演化等新领域，对复杂工程系统的设计优化、运行管控与安全可靠性展开探讨。随着现代装备系统失效、运行故障等安全风险持续凸显，装备稳定性与运行韧性已成为行业核心研究热点。本专题旨在汇聚国内外相关领域专家学者，交流系统工程理论、智能管控技术、故障诊断、安全防护及可靠性评估等关键技术成果。同时探讨复杂系统安全运行的优化方案与创新应用，分享最新理论研究、工程实践与技术落地案例。热忱欢迎相关方向原创论文与前沿研究成果投稿，共同推动复杂系统安全保障与可靠运维领域的技术创新与学术发展。
This special session focuses on cutting-edge research directions in complex systems engineering and equipment safety assurance. In response to the evolution of complex systems toward intelligence, networking, and high integration, and addressing the exponentially growing system scale and interaction complexity, this session challenges traditional reliability analysis methods. It explores new domains such as multi-domain coupling, human-machine collaboration, and dynamic evolution in complex systems, covering design optimization, operation control, as well as safety and reliability of complex engineering systems.
As safety risks associated with modern equipment system failures and operational malfunctions continue to escalate, equipment stability and operational resilience have become core research hotspots in the field. This session aims to bring together experts and scholars from domestic and international communities to exchange key technical achievements in systems engineering theory, intelligent control technologies, fault diagnosis, safety protection, and reliability assessment. Furthermore, the session will discuss optimization schemes and innovative applications for the safe operation of complex systems, and share the latest theoretical research, engineering practices, and technology deployment case studies.
We warmly welcome submissions of original research papers and cutting-edge findings in related areas, and seek to jointly promote technological innovation and academic advancement in the field of complex system safety assurance and reliable operation.

Suggested topics include but are not limited to:

• Complex system reliability modeling and analysis methods.
• Risk and resilience engineering in equipment safety assurance.
• Big data and AI‑driven prognostics and health management (PHM) for complex systems.
• Reliability and safety assessment of multi‑domain collaborative systems (e.g., manned‑unmanned teaming, cross‑platform interoperability).
• Lifecycle equipment support system and strategies for continuous airworthiness / mission readiness improvement.

建议且不限于以下主题:

• 复杂系统可靠性建模与分析方法。
• 装备安全保障中的风险与韧性工程。
• 大数据与人工智能驱动的故障预测与健康管理（PHM）在复杂系统中的应用。
• 多域协同系统（如有人-无人编组、跨平台互操作）的可靠性与安全性评估。
• 全生命周期装备保障体系与持续适航/任务就绪度提升策略。

Info.