Mission Success Guaranteed
Space Simulators & Validation Facilities
About
We deliver high-fidelity, cyber physics-based modeling, simulation, testing and verification to support the design and operations before a single component is built or launched.
Our Core Promise
- Enhanced Mission Resilience: Robust systems built to withstand the unforeseen.
- Reduced Mission Risks: Identifying critical failures in a virtual environment.
- Ensured Compliance: Rigorous adherence to international space standards.
- Mission Success Guaranteed: High-precision V&V for high-stakes programs.
Software Validation Facilities (SVF) 
Operational Simulators (TOMS) 
End-to-End Mission Simulation 
Hardware-in-the-Loop (HiL) 
Multi-Asset Simulators 
Mechanical Engineering Simulations 
Copernicus Hyperspectral Imaging Mission (CHIME)
Designed and implemented the reusable simulator architecture, modeling critical spacecraft subsystems.
Copernicus Imaging Microwave Radiometer (CIMR)
Creation of advanced, reusable operational simulators (OPSIM) ensuring mission readiness and stability throughout spacecraft lifecycle.
ROSE-L (Radar Observing System for Europe in L-band) Advanced, High-fidelity Operational Simulators ensured mission readiness.
Space Rider – Design and development of the Operational Simulator (OPSIM) and the Mass Memory Unit (MMU). Modeling critical subsystems based on the ESA SIMULUS/SMP2 standard.
Standards
Specifications & High Assurance Standards
- Expertise in SIMULUS, SIMSAT, and Reference Architectures (REFA/REFA-TA).
- UML-based design using MagicDraw, UMF, and EGOS-MF platforms.
- C++ (Models), ANSI C (OBSW), Java/JS (UI), Rust, and Python.
- Full adherence to ECSS (E-ST-40C, Q-ST-80C), SMP2, MISRA, and BSSC.
Co-Simulation & Next-Gen Architectures
AI & Robotics in Space Simulations 
Productization of Simulation Assets
