搜索结果: 1-15 共查到“航天器结构与设计 GPS”相关记录25条 . 查询时间(0.125 秒)
国外开发出基于反射测量的多频段GPS接收器
反射测量 多频段 GPS接收器
2024/1/17
RESEARCH IN APPLICATION OF GEODETIC GPS RECEIVERS IN TIME SYNCHRONIZATION
Time Synchronization GPS Common-View GPS
2018/5/16
In recent years, with the development of satellite orbit and clock parameters accurately determining technology and the popularity of geodetic GPS receivers, Common-View (CV) which proposed in 1980 by...
日本版GPS蓄势待发
日本版 GPS 定位卫星 卫星系统
2017/5/19
卫星定位是物联网、大数据等相关产业的基础,各国竞相竞争。同时,其在宇宙开发应用中也处于先导地位。日本版GPS正在加紧实施,日本内阁府最近公开了准天顶卫星系统“引路”第2号定位卫星。日本计划2017年秋天,用国产火箭“H2A”发射2号机等三颗定位卫星,加上以前发射运行的1号机,从2018年度开始将共有四颗定位卫星运行。离正式运行仅剩1年的日本版GPS试图超越美国及欧洲,开创日本自主的新业态。
针对GPS载波相位定位技术中的周跳问题,提出了一种改进的组合周跳探测与修复方法。电离层残差法很好地适用于双频动态数据的周跳探测,但是该方法不能判断周跳发生在哪个载波相位,同时当两个频率发生特殊的周跳组合时,该方法不能探测出周跳。因此采用载波相位线性拟合方法进行辅助探测,通过对周跳历元附近前6个历元载波相位观测值进行线性拟合,估算出周跳历元的载波相位估值,并与实测值作差,如果差值超出限差值,则认为发...
Pseudolites (PLs), ground-based satellites transmitting GPS-like signals, are becoming increasingly useful for a variety of applications, including differential GPS correction broadcasting and aircraf...
High Integrity GPS-Based Precision Landing Using In Beacon Pseudolites
High Integrity GPS-Based Precision Landing Beacon Pseudolites
2015/6/29
The Integrity Beacon Landing System (IBLS), developed and tested at Stanford Universi GPS-based Category III precision landing. IBLS is a Kinematic GPS system which iIntegrity Beacon pseudolites place...
Techniques for Real-Time Control of Flexible Structures using GPS
Techniques Real-Time Control Flexible Structures using GPS
2015/6/29
This paper describes the most recent advances in our research on GPS(global positioning system) for real-time structural motion sensing and control. The goal of this work is to bring to light the impo...
GPS Pseudolite Transceivers and their Applications
GPS Pseudolite Transceivers Applications
2015/6/29
There are an increasing number of applications requiring precise relative position and clock offset information.The Global Positioning System has demonstrated precise and drift free position and timin...
GPS Receiver Satellite/Antenna Selection Algorithm for the Stanford Gravity Probe B Relativity Mission
GPS Receiver Satellite Antenna Selection Algorithm Stanford Gravity Probe B Relativity
2015/6/29
This paper presents a GPS receiver satellite/antenna selection algorithm for the Stanford Gravity Probe B Relativity Mission.
Satellite Autonomous Integrity Monitoring and its Role in Enhancing GPS User Performance
Satellite Autonomous Integrity Monitoring Role GPS User Performance
2015/6/29
One of the difficulties inherent in use of Global Naviga tion Satellite Systems (GNSS) for safety-critical applica tions is the need to insure user integrity in the face of an unbounded array of...
Sensitivity Analysis of the JPALS Shipboard Relative GPS Measurement Quality Monitor
Sensitivity Analysis JPALS Shipboard Relative GPS Measurement Quality Monitor
2015/6/26
The Joint Precision Approach and Landing System (JPALS) is being developed as a single replacement for the navigation, precision approach and landing systems currently used by military aircraft. Shipb...
Ionospheric Scintillation Effects on Single and Dual Frequency GPS Positioning
Ionospheric Scintillation Effects Dual Frequency GPS Positioning
2015/6/26
The low latitude ionosphere poses a challenge to both GPS users and Satellite-Based Augmentation System(SBAS) providers. Single and dual frequency GPS receivers used in low-latitude regions can suffer...
Signal Deformations On Nominally Healthy GPS Satellites
Signal Deformations Nominally Healthy GPS Satellites
2015/6/26
This paper describes the collection and analysis of real data from twenty-four current, nominally healthy GPS satellites in the context of the ICAO second-order step (2OS) fault model.
Fault Detection and Elimination for Galileo-GPS Vertical Guidance
Fault Detection Elimination Galileo-GPS Vertical Guidance
2015/6/25
In anticipation of the future launches of dual-frequency GNSS satellites, such as Galileo and GPS block III, a series of new developments has taken place in the field of Receiver Autonomous Integrity ...
Sigma Overbounding using a Position Domain Method for the Local Area Augmentaion of GPS
Sigma Overbounding Position Domain Method Local Area Augmentaion GPS
2015/6/25
The local area augmentation system (LAAS) is a differential GPS navigation system being developed to support aircraft precision approach and landing navigation with guaranteed integrity and availabili...