Network RTK (Real-Time Kinematic) is a technology that is based on GPS (Global Positioning System) or more gener-ally on GNSS (Global Navigation Satellite System) measurements to achieve centimeter-level accuracy posi...Network RTK (Real-Time Kinematic) is a technology that is based on GPS (Global Positioning System) or more gener-ally on GNSS (Global Navigation Satellite System) measurements to achieve centimeter-level accuracy positioning in real-time. Reference station placement is an important problem in the design and deployment of network RTK systems as it directly affects the quality of the positioning service and the cost of the network RTK systems. This paper identifies a new reference station placement for network RTK, namely QoS-aware regional network RTK reference station placement problem, and proposes an algorithm for the new reference station placement problem. The algorithm can always produce a reference station placement solution that completely covers the region of network RTK.展开更多
使用北斗网络RTK(real-time kinematic,实时动态)技术、三维激光扫描技术,获取已建地下空间CGCS2000坐标系下的点云数据,运用3DMAX、Revit软件参考点云逆向建模,采集模型中的距离和坐标数据与地下空间实测数据进行比较,计算模型内部精...使用北斗网络RTK(real-time kinematic,实时动态)技术、三维激光扫描技术,获取已建地下空间CGCS2000坐标系下的点云数据,运用3DMAX、Revit软件参考点云逆向建模,采集模型中的距离和坐标数据与地下空间实测数据进行比较,计算模型内部精度。实验结果表明:在多种新技术的融合应用下,可实现已建地下多场地使用统一坐标系建模,满足CIM(city information mode,城市信息模型)平台建设的需求。展开更多
文摘Network RTK (Real-Time Kinematic) is a technology that is based on GPS (Global Positioning System) or more gener-ally on GNSS (Global Navigation Satellite System) measurements to achieve centimeter-level accuracy positioning in real-time. Reference station placement is an important problem in the design and deployment of network RTK systems as it directly affects the quality of the positioning service and the cost of the network RTK systems. This paper identifies a new reference station placement for network RTK, namely QoS-aware regional network RTK reference station placement problem, and proposes an algorithm for the new reference station placement problem. The algorithm can always produce a reference station placement solution that completely covers the region of network RTK.
文摘使用北斗网络RTK(real-time kinematic,实时动态)技术、三维激光扫描技术,获取已建地下空间CGCS2000坐标系下的点云数据,运用3DMAX、Revit软件参考点云逆向建模,采集模型中的距离和坐标数据与地下空间实测数据进行比较,计算模型内部精度。实验结果表明:在多种新技术的融合应用下,可实现已建地下多场地使用统一坐标系建模,满足CIM(city information mode,城市信息模型)平台建设的需求。