Loading…
Low-Power Galileo/GPS Single-Shot Receiver Architecture for Mobile Terminals.
Annotation
| Call Number: | Libro Electrónico |
|---|---|
| Main Author: | |
| Format: | Electronic eBook |
| Language: | Inglés |
| Published: |
Berlin :
Logos Verlag Berlin,
2014.
|
| Subjects: | |
| Online Access: | Texto completo |
Table of Contents:
- Intro; 1 Introduction; 1.1 Motivation; 1.2 Goals and Organization of this Work; 2 Global Navigation Satellite Systems; 2.1 Principle of Satellite Navigation; 2.1.1 Positioning using GNSS Space Vehicles; 2.1.2 Reference Coordinate Systems; 2.1.3 Satellite Orbit and Propagation Error Correction Parameters; 2.2 NAVSTAR GPS; 2.2.1 NAVSTAR GPS System Segments; 2.2.2 Signal-in-Space Generation and Characteristics; 2.3 Galileo; 2.3.1 Galileo System Segments; 2.3.2 Signal in Space Characteristics; 3 State-of-the-Art GNSS Receiver Architectures; 3.1 Acquisition and Tracking Receiver Architecture.
- 3.2 Single-Shot Receiver Architecture3.3 Search Space versus Time-to-First-Fix; 4 Long-Range Time Synchronization; 4.1 DCF77 Signal-in-Space Characteristics; 4.2 Time Synchronization via LW Radio Signals; 5 DAGNSS Receiver Architecture; 5.1 System Overview; 5.2 Analog-Radio-Frequency (RF) Frontend Architectures; 5.2.1 GNSS RF Frontend; 5.2.2 DCF77 RF Frontend; 5.3 Digital Baseband Signal Processing Architecture; 5.3.1 Input Signal Memory; 5.3.2 Local PRN Memory; 5.3.3 Correlation Engine; 5.3.4 Baseband Control; 5.4 Host Hardware and Operating System; 5.5 Positioning Software.
- 6 Systemsimulation6.1 Simulation Setup; 6.1.1 DCF77 SIS Model; 6.1.2 GNSS SIS Model; 6.1.3 DCF77 RF Frontend Model; 6.1.4 GNSS RF Frontend Model; 6.1.5 Digital Baseband Signal Processing Model; 6.1.6 Positioning Solution; 6.2 Simulation Results; 6.2.1 DCF77 Simulation Results; 6.2.2 GNSS Simulation Results; 7 Summary and Outlook.