Mission Analysis & Flight Dynamics

Comprehensive Flight Dynamics Support

Supporting end-to-end ESA's Mission Analysis and Flight Dynamics activities, from Phase 0 to in-flight disposal re-assessments (Terrestrial, Lunar, Martian, Interplanetary, Libration Point missions).

We provide key support to Maintenance and Development tasks for ESA's operational Flight Dynamics Software GODOT, while leading the development of CUDA-based software for Mission Analysis (CUDAjectory).

Our expertise extends to High Performance, GPU, and Edge computing for Flight Dynamics and Mission Analysis, enabling rapid and accurate mission design and optimization.

Phase 0

to Disposal

GPU

Accelerated Computing

ESA

GODOT Development

Our Expertise

Mission Analysis Capabilities

End-to-End Mission Analysis

Supporting ESA's Mission Analysis and Flight Dynamics activities from Phase 0 to in-flight disposal re-assessments.

Terrestrial missions (LEO, MEO, GEO)
Lunar missions and transfers
Martian missions
Interplanetary missions
Libration Point missions

Lunar Surface Analysis

Supporting Lunar Surface Analysis Activities and Lunar Terrain model production for mission planning and operations.

Lunar terrain modeling
Landing site analysis
Surface operations support

Constellation & Proximity Missions

Supporting Constellation and Close-Proximity Mission Analysis activities for complex multi-satellite operations.

Constellation design and optimization
Close-proximity operations
Formation flying analysis

GODOT Development Support

Providing key support to Maintenance and Development tasks for ESA's operational Flight Dynamics Software GODOT.

Software maintenance and updates
Feature development
Performance optimization

High Performance Computing

Providing key expertise for ESA's adoption of High Performance, GPU, and Edge computing for Flight Dynamics and Mission Analysis.

GPU acceleration
Edge computing solutions
Performance optimization

CUDAjectory Development

Leading the development of CUDA-based software for Mission Analysis (CUDAjectory) enabling massively parallel trajectory computations.

GPU-accelerated trajectory analysis
Real-time optimization
Rapid mission design

Technology Stack

Flight Dynamics Tools & Software

GODOT

ESA GODOT

ESA's General Orbit Determination and Optimization Tool - industry-standard software for mission analysis and trajectory design.

Mission Design Orbit Determination Maneuver Planning

Proprietary

CUDAjectory

Our revolutionary GPU-accelerated trajectory optimization tool. Performs 10,000 trajectory calculations simultaneously, enabling unprecedented analysis speed.

GPU Accelerated Real-time Massively Parallel

10,000x Faster

Minutes vs Days

Custom Scripts & Automation

Extensive library of Python, MATLAB, and C++ tools for mission-specific analysis, data processing, and automated reporting.

Python MATLAB C++

Our Methodology

Mission Analysis Process

Requirements & Constraints

Define mission objectives, orbital parameters, payload requirements, launch constraints, and operational considerations.

Trajectory Design

Develop optimal trajectory solutions using GODOT and CUDAjectory. Evaluate trade-offs between ΔV, time-of-flight, and mission constraints.

Analysis & Optimization

Perform sensitivity studies, error analysis, and optimization. Assess impact of uncertainties and develop contingency strategies.

Documentation & Delivery

Comprehensive mission analysis reports, operational procedures, and knowledge transfer to operations teams.