GNSS and Global Geodesy

GNSS 和全球大地测量

• 批准号: RGPIN-2018-04419
• 负责人: Santos, Marcelo
• 金额: $ 2.62万
• 依托单位: University of New Brunswick
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=686648
• 关键词: GNSS; Global; Geodesy

The research program is composed by three interlaced projects, benefiting from earlier developments we have made, covering physical and geometrical aspects of Geodesy. ******The first research project deals with the very fundamental subject of global heights system. There is an effort for establishing a global height system at the geopotential level, the geoid, and to establish relationships between the global height system and national ones. Countries use either orthometric or normal heights. The former relates to a physical surface (geoid) whereas the latter to a close approximation, the quasi-geoid. Orthometric heights are computed based on Helmert's formulation. We have developed a more rigorous formulation, the rigorous orthometric heights. The project entails the investigation of the effect of topo-density variation on gravity and heights on global scale, the determination of relationships between rigorous and Helmert's orthometric heights with normal heights, on a global scale, taking into consideration spatial variations and accuracy, the design and implementation a computational package to simplify the computation of rigorous orthometric height and to convert these three common types of heights to each other to be used for practical purposes. ******The second research project deals with the use of Geodesy for climate. Its final objective is to provide the climate community with a robust and reliable algorithm that can be used in the homogenization of neutral-atmospheric parameters time series before their use in climate analysis. The parameters can be generated from GNSS observations or from numerical weather prediction models (NWM). The project entails the designing, implementation and assessment of ray-tracing inside the GNSS processing, a full evaluation of uncertainties during the ray tracing operation via error propagation, the design and test of combination algorithms for quality control of neutral-atmospheric time series, and the design, test and validation of algorithm for homogenization of GNSS- and NWM- derived neutral-atmospheric parameters to be made available to the climate community. ******The third project assesses the use and capabilities of real-time GNSS precise point positioning (PPP) and its application in vehicle navigation. It advances the concept of cooperative positioning and lane-keeping for autonomous navigation. It enhances the concept of map-matching and explores the use of Wi-Fi to complement positioning outages. It entails the optimization of the integration Kalman Filter that integrates real-time PPP positioning, Wi-Fi, inertial and information from the map database, assessment of Wi-Fi to complement positioning outages and assess problems associated with reception of the real-time data stream necessary for PPP in a real scenario.

该研究计划由三个相互交织的项目组成，受益于我们所取得的早期发展，涵盖大地测量的物理和几何方面。** 第一个研究项目涉及全球高度系统的非常基础的主题。目前正在努力建立地球位势一级的全球高度系统，即大地水准面，并建立全球高度系统与国家高度系统之间的关系。国家使用正高或正常高度。前者与物理表面（大地水准面）有关，而后者则与一个近似的似大地水准面有关。正高是根据赫尔默特公式计算的。我们发展了一个更严格的公式，严格的正高。该项目需要调查地形密度变化对全球范围重力和高度的影响，确定全球范围内严格和赫尔默特正高与正常高度之间的关系，同时考虑到空间变化和准确性，设计并实现了一个计算软件包，以简化严格正高的计算，并转换这三种常见的高度类型彼此都能用于实际目的。** 第二个研究项目涉及大地测量在气候方面的应用。其最终目标是为气候界提供一种稳健可靠的算法，可用于在中性大气参数时间序列用于气候分析之前对其进行均匀化。这些参数可以从GNSS观测或从数值天气预报模型（NWM）生成。该项目需要设计、实施和评估全球导航卫星系统处理过程中的射线追踪，通过误差传播对射线追踪操作期间的不确定性进行全面评价，设计和测试中性大气层时间序列质量控制的组合算法，以及设计，测试和验证将提供给气候界的全球导航卫星系统和北半球监测系统得出的中性大气参数的均匀化算法。** 第三个项目评估全球导航卫星系统实时精确单点定位的使用和能力及其在车辆导航中的应用。提出了自主导航中的协同定位和车道保持的概念。它增强了地图匹配的概念，并探讨了使用Wi-Fi来补充定位中断。它需要优化集成卡尔曼滤波器，该滤波器集成实时PPP定位、Wi-Fi、惯性和来自地图数据库的信息，评估Wi-Fi以补充定位中断并评估与接收真实的场景中PPP所需的实时数据流相关的问题。