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1. Multi-source Perception and Navigation Situation Modeling in Complex Marine Environments (复杂海洋环境下的多源感知与航行态势建模)
- Multi-sensor information fusion and uncertainty modeling methods (多传感器信息融合与不确定性建模方法)
- Perception and representation of navigation environments, traffic situations, and risk factors (航行环境、交通态势与风险要素的感知与表征)
- Situation awareness and state estimation models for safety analysis (面向安全分析的态势感知与状态估计模型)
2. Decision Models and Computational Methods for Ship Collision Avoidance and Navigation Safety (船舶避碰与航行安全的决策模型与计算方法)
- Mathematical modeling, optimization, and control theories for ship collision avoidance (船舶避碰的数学建模、优化与控制理论)
- Cooperative decision-making and game-theoretic models in multi-ship interaction scenarios (多船交互场景下的协同决策与博弈模型)
- Collision avoidance decision methods integrating data-driven and mechanism-based models (数据驱动与机理模型融合的避碰决策方法)
3. Operational Risk Assessment and Safety Analysis of Ships and Marine Equipment (船舶与海洋装备运行风险评估与安全性分析)
- Quantitative navigation risk assessment models and computational frameworks (航行风险的定量评估模型与计算框架)
- Safety analysis methods under uncertainty and stochastic conditions (不确定性、随机性条件下的安全分析方法)
- Risk evolution mechanisms in high-density traffic and complex operating conditions (高密度交通与复杂工况下的风险演化机理)
4. Fault Diagnosis and Health Management of Critical Ship and Marine Equipment Systems (船舶与海洋装备关键系统的故障诊断与健康管理)
- Condition monitoring and fault mechanism modeling of critical systems (关键系统状态监测与故障机理建模)
- Theoretical methods for fault diagnosis, fault prognosis, and health management (故障诊断、故障预测与健康管理理论方法)
- Reliability analysis and degradation modeling of complex systems (复杂系统可靠性分析与退化建模)
5. Theoretical Models for Safe Execution and Fault-Tolerant Control (安全执行与容错控制的理论模型)
- Control and execution models under safety constraints (面向安全约束的控制与执行模型)
- Fault-tolerant and robust control methods under fault conditions (故障条件下的容错控制与鲁棒控制方法)
- Stability and performance analysis of safety-critical control systems (安全关键系统的控制稳定性与性能分析)
6. Personnel Behavior Modeling under Extreme Operating Conditions and Accident Scenarios (极端工况与事故场景下的人员行为建模)
- Modeling of personnel behavior and decision-making mechanisms in ship accident scenarios (船舶事故场景中人员行为与决策机理建模)
- Group behavior dynamics and human–machine–environment coupling models (群体行为动力学与人–机–环境耦合模型)
- Impact analysis of uncertainty and individual differences on behavior evolution (不确定性与个体差异对行为演化的影响分析)
7. Maritime Emergency Simulation and Safety Assessment Methods (海上应急仿真与安全评估方法)
- Modeling and simulation of maritime emergencies and emergency response processes (海上突发事件与应急处置过程的建模与仿真方法)
- Computational models for search and rescue (SAR), emergency response, and resource allocation (搜索与救助(SAR)、应急响应与资源调度的计算模型)
- Quantitative evaluation methods for emergency response efficiency, safety, and system resilience (应急处置效率、安全性与系统韧性的定量评估方法)
8. Intelligent and Digital Methods for Safety Analysis (智能化与数字化安全分析方法)
- Applications of artificial intelligence and machine learning in safety analysis (人工智能与机器学习在安全分析中的应用)
- Risk modeling methods under small-sample and high-dimensional data conditions (小样本、高维数据条件下的风险建模方法)
- Studies on interpretability and generalization of safety analysis models (安全分析模型的可解释性与泛化能力研究)
9. Applications of Digital Twin and Virtual Simulation in Safety Decision Support (数字孪生与虚拟仿真在安全决策支持中的应用)
- Digital twin modeling methods for ship and marine equipment safety (船舶与海洋装备安全数字孪生建模方法)
- Multi-model collaborative simulation and online safety assessment (多模型协同仿真与在线安全评估)
- Virtual–physical integrated frameworks for safety decision support (虚实融合的安全决策支持框架)
10. Interdisciplinary Safety Analysis Models and Integrated Application Frameworks (跨学科安全分析模型与综合应用框架)
- Cross-disciplinary methods integrating naval architecture and ocean engineering, safety engineering, and intelligent systems (船舶与海洋工程、安全工程与智能系统的交叉方法)
- Validation and evaluation of safety analysis models for engineering applications (面向工程应用的安全分析模型验证与评估)
- Mechanisms for translating theoretical methods into practical safety decision-making (理论方法向实际安全决策的转化机制)
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