Key Features

• 1000Hz simulation iteration rate
• Low-latency HIL
• Live sky time synchronisation
• Advanced jamming & spoofing
• All GNSS constellations
• Powerful Automation
• Aerospace Simulation
• User-defined waveforms

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Quick Overview

GSG-8 is the newest positioning, navigation, and timing test solution offered through Orolia’s GSG family of simulators, It was developed to deliver the highest standard of Global Navigation Satellite System (GNSS) signal testing and sensor simulation performance in an easy to use, upgradable and scalable platform.


Contact Us

Please email or call 01527 512400 for a quote

Product Code

Orolia-GSG-8

Advanced GNSS Simulation, Made Easy.
GSG-8 features high-end performance with a 1000 Hz simulation iteration rate, high dynamics, real-time synchronisation, and simulation of all-in-view satellite signals. Advanced GNSS jamming and spoofing options allow the creation of benign and threat scenarios required to meet the needs of mission-critical applications.

GSG- 8 is ideal for any development or integration project that requires sophisticated simulation capabilities in any simulated environment from any point on earth, and beyond.

GSG-8: Scientific Precision, Software Defined.
GSG-8 is revolutionising the GNSS simulation industry with its easy to use, advanced simulation capabilities, extraordinary flexibility and rapid development cycles. With a robust and innovative 1000Hz software engine and commercial-off-the-shelf (COTS) software-defined radios (SDRs), GSG-8 easily outperforms the competition.

It can accommodate unlimited configurations to conduct system testing and simulation, and its SDR format makes maintenance and customisation much easier and more affordable than other options. Trust GSG-8 to deliver precise results for your critical programs. Orolia can help ensure reliable performance and accelerate your system’s time to market or deployment.

Powerful Automation
The unique and modern architecture of its Skydel simulation engine provides an extensive application program interface (API) to configure and control all aspects of the simulator. The API is available in various programming languages such as Python, C#, C++ and LabVIEW.

Moreover, all human and machine interactions with the simulator can be recorded and exported as executable python script, which greatly simplifies the work of test engineers who want to automate or expand the simulator capabilities.

Scalable Platform
The Skydel simulator engine provides a flexible and scalable architecture to cover larger and more complex applications to test controlled reception pattern antennas (CRPA).

Ask Steatite about Wavefront and Anechoic test solutions using the Skydel simulator engine.