对美国定位、导航和授时(positioning,navigation and timing,PNT)领域的相关政策和整体目标进行了梳理,重点对GPS现代化改造、GPS与低轨通信卫星融合、建设eLoran系统和自主导航项目等重要PNT信息源的建设进展、服务能力和融合应用做...对美国定位、导航和授时(positioning,navigation and timing,PNT)领域的相关政策和整体目标进行了梳理,重点对GPS现代化改造、GPS与低轨通信卫星融合、建设eLoran系统和自主导航项目等重要PNT信息源的建设进展、服务能力和融合应用做了具体分析和总结,表明美国已经理清了PNT体系发展脉络,相关建设已进入实质阶段,同时对我国PNT信息源未来的发展、融合和建设提出了具体建议.展开更多
The concept of resilient positioning, navigation and timing (PNT) is described. The definition of resilient PNT is given, the relationship between integrated (or comprehensive) PNT and resilient PNT is analyzed, and i...The concept of resilient positioning, navigation and timing (PNT) is described. The definition of resilient PNT is given, the relationship between integrated (or comprehensive) PNT and resilient PNT is analyzed, and it is pointed out that the integrated PNT is the foundation of resilient PNT. Resilient PNT should be divided into resilient sensor integration, resilient functional model and resilient stochastic model. The strategy and principles of resilient integration of sensors are discussed. The resilient integration of sensors should be designed following the optimal, available, compatible and interoperable principles. The concepts of resilient functional model and possible modification strategies of the different functional models are also described. Several possible optimal routes for resilient stochastic model improvements are also set forth. It is pointed out that the optimal improvements of stochastic models for multi PNT sources should follow the same variance scale. At last, the resilient PNT data fusion for state parameters are given based on the resilient functional and stochastic models.展开更多
定位导航与授时(positioning,navigation and timing,PNT)体系是支撑人类社会发展的基础设施。当前以卫星为核心的天基PNT应用广泛,但在卫星拒止环境下面临严峻挑战。通过总结天基PNT在国民经济发展与国防建设中的重大作用,分析天基PNT...定位导航与授时(positioning,navigation and timing,PNT)体系是支撑人类社会发展的基础设施。当前以卫星为核心的天基PNT应用广泛,但在卫星拒止环境下面临严峻挑战。通过总结天基PNT在国民经济发展与国防建设中的重大作用,分析天基PNT的脆弱性与依赖风险,明确了对不依赖卫星的PNT体系的迫切需求。提出了不依赖卫星的PNT体系概念与特征,即以“惯导+时钟”为核心增强基础PNT能力,利用外源传感器多源融合提高精度保持能力,在卫星拒止条件下为用户提供可承载的高性能PNT服务。基于现有技术基础重点发展微小型、高精度、低成本惯导技术,微时钟技术以及智能融合技术是有效途径,能够实现不依赖卫星的PNT覆盖性、精确性与可承载性的全面提升。展开更多
文摘对美国定位、导航和授时(positioning,navigation and timing,PNT)领域的相关政策和整体目标进行了梳理,重点对GPS现代化改造、GPS与低轨通信卫星融合、建设eLoran系统和自主导航项目等重要PNT信息源的建设进展、服务能力和融合应用做了具体分析和总结,表明美国已经理清了PNT体系发展脉络,相关建设已进入实质阶段,同时对我国PNT信息源未来的发展、融合和建设提出了具体建议.
文摘The concept of resilient positioning, navigation and timing (PNT) is described. The definition of resilient PNT is given, the relationship between integrated (or comprehensive) PNT and resilient PNT is analyzed, and it is pointed out that the integrated PNT is the foundation of resilient PNT. Resilient PNT should be divided into resilient sensor integration, resilient functional model and resilient stochastic model. The strategy and principles of resilient integration of sensors are discussed. The resilient integration of sensors should be designed following the optimal, available, compatible and interoperable principles. The concepts of resilient functional model and possible modification strategies of the different functional models are also described. Several possible optimal routes for resilient stochastic model improvements are also set forth. It is pointed out that the optimal improvements of stochastic models for multi PNT sources should follow the same variance scale. At last, the resilient PNT data fusion for state parameters are given based on the resilient functional and stochastic models.
文摘定位导航与授时(positioning,navigation and timing,PNT)体系是支撑人类社会发展的基础设施。当前以卫星为核心的天基PNT应用广泛,但在卫星拒止环境下面临严峻挑战。通过总结天基PNT在国民经济发展与国防建设中的重大作用,分析天基PNT的脆弱性与依赖风险,明确了对不依赖卫星的PNT体系的迫切需求。提出了不依赖卫星的PNT体系概念与特征,即以“惯导+时钟”为核心增强基础PNT能力,利用外源传感器多源融合提高精度保持能力,在卫星拒止条件下为用户提供可承载的高性能PNT服务。基于现有技术基础重点发展微小型、高精度、低成本惯导技术,微时钟技术以及智能融合技术是有效途径,能够实现不依赖卫星的PNT覆盖性、精确性与可承载性的全面提升。