Satellite Mission Analysis and Design based on Orekit

Trajectory optimization framework that uses indirect methods

B2XKlaim: a BPMN-to-X-Klaim toolchain for model-driven multi-robot mission design.

Preliminary Design Of The Trajectory For An Interplanetary Mission Between Earth And Saturn With Natural Gravitatory Assistance From Jupiter

Aerospace Engineering Portfolio - GNC Systems, Mission Analysis, and Space Systems Design

35 MCP tools for aerospace engineering — structural analysis, margin of safety, trusses, aerodynamics, compressible flow, thermodynamics, aircraft performance, rocket nozzle design, and mission planning

High-fidelity illumination modeling and N-body trajectory optimization for Enceladus mission design. Developed in MATLAB for the ESA-funded GIGANTES project.

Delta-v planner for circular-to-circular transfers (Hohmann, bi-elliptic, plane-change). Impulsive burns, quick trade-offs. Python 3.10+.

Research framework for early-phase autonomous rover operations design, combining MBSE, ConOps, AI planning, and validation-oriented simulation for robotic space exploration.

Depp Space Trajectory Design & Optimization in Python

A modular, professional-grade digital engineering and trajectory propagation platform for spacecraft propulsion systems. Includes high-fidelity physics models (Hall effect, gridded ion, chemical, nuclear, and VASIMR engines), multi-node thermal LPN solvers, power simulation, state estimation (EKF), and automated engineering advisor analytics.