GNSS SIMULATION WITH UNMATCHED FLEXIBILITY
The GSG-8 GNSS Simulator is an advanced, software-driven, turnkey solution designed to support multi-constellation, multi-frequency, and hundreds of satellite signals. Boasting an impressive 1000 Hz iteration rate, the GSG-8 is perfect for simulating space trajectories, creating custom PNT (Position, Navigation, and Timing) signals, integrating with hardware-in-the-loop systems, and simulating all-in-view satellites.
Key Features of the GSG-8 GNSS Simulator:
- Advanced Simulation Capabilities: Generate RF signals to accurately simulate real-world scenarios.
- Complete Control: Manage every aspect of your simulation, including 6 Degrees of Freedom (DoF) receiver trajectories, multi-vehicle simulations, and multi-path signals.
- Interference Simulation: Test your receiver’s resilience to jamming, spoofing, and atmospheric interferences.
- High Performance: Achieve superior GNSS signal testing and sensor simulation with a 1000 Hz iteration rate.
- User-Friendly Platform: Designed for ease of use, upgradability, and scalability.
Ideal Use Cases:
- Space Trajectories: Simulate complex space-based movements and paths.
- Custom PNT Signals: Create tailored Position, Navigation, and Timing signals for specific needs.
- Hardware-in-the-Loop (HIL): Seamlessly integrate with HIL systems for comprehensive testing.
- All-In-View Satellite Simulation: Simulate scenarios involving all visible satellites across multiple GNSS constellations.
The GSG-8 is a leading positioning, navigation, and timing test solution within Safran’s GSG family of Skydel-based simulators. It delivers the highest standard of GNSS signal testing performance, ensuring your receiver devices are thoroughly tested and reliable in any environment.
Features of the GSG-8 GNSS Simulator:
- 1600+ Signals: Supports a vast array of signals for comprehensive testing.
- All-in-View Satellites Simulation: Simulate scenarios involving all visible satellites.
- 1000 Hz Iteration Rate: High-speed simulation for accurate testing.
- Low-Latency Hardware-in-the-Loop (HIL): Minimal delay for seamless HIL integration.
- Ultra-High Dynamics: Capable of simulating rapid movements and changes.
- User-Defined Waveforms: Create custom waveforms to meet specific needs.
- Live Sky Time Synchronization: Synchronize with real-time sky conditions.
- On-the-Fly Scenario Reconfiguration: Adjust scenarios during simulation without interruption.
- Advanced Jamming & Spoofing: Test resilience against jamming and spoofing attacks.
- 6 Degrees of Freedom (DoF) Receiver Trajectories: Simulate complex receiver movements.
- Flexible Licensing: Choose the licensing model that fits your requirements.
- In-Field Upgradeability: Upgrade capabilities on-site as needed.
- Real-Time Simulation: Simulate hundreds of satellites in real-time.
- Multi-Vehicle Simulation: Test multiple vehicles simultaneously.
- Comprehensive API: Control simulations using Python, C#, and C++.
- Scalable Architecture: Utilize software-defined radios for flexible, scalable simulations.
- IQ File Generation and Playback: Generate and playback IQ files for detailed analysis.
Specifications:
- Size: 4U
- Weight: 39.6 lbs (18 kg)
- Dimensions: Width: 19 in (48 cm), Depth: 16 in (40.6 cm), Height: 7 in (18 cm)
- Power Consumption: 400W
Supported Signals:
- GPS: L1-C/A, L1C, L1-P, L2-P, L2C, L5
- NavIC: L5
- GLONASS: G1, G2
- Galileo: E1, E5a, E5b, E6, E6PRS, E6 HAS, E5AltBOC, PRS-Noise, HAS-Noise
- BeiDou: B1, B2, B1C, B2A
- QZSS: L1-C/A, L2C, L5
- SBAS: WAAS, EGNOS, MSAS, GAGAN, SDCM
- Custom Signals: Create and simulate custom signal configurations.
