Satcom Mission Analysis Engineer
Posted 2 hours 8 minutes ago by Jobtailor
Permanent
Full Time
Other
Oxfordshire, Harwell, United Kingdom, OX110
Job Description
Responsibilities 
- Defining, optimising, and maintaining the precise orbital architecture of the constellation over its lifespan
- Running continuous topology analysis, ensuring that the physical distribution of satellites mathematically supports the network capacity requirements defined by the System Architecture team
- Modelling the integration of future constellation phases, calculating how adding new orbital shells will interact with the existing mesh
- Calculating the exact pointing, acquisition, and tracking (PAT) slew rates required to maintain line-of-sight for optical Inter-Satellite Links (ISLs), especially during cross-plane orbital intersections
- Analyzing astrodynamic perturbations, like atmospheric drag, solar radiation pressure and their direct impact on laser pointing accuracy and optical link stability
- Calculating and delivering highly accurate slant range and Doppler shift profiles to the RF and Waveform engineering teams for physical layer optimization
- Calculating revisit times, elevation angles, and line-of-sight durations to guarantee SLA-backed coverage for User Terminals (UTs)
- Modelling complex operational environments, including terrain masking, maritime use cases, and high-latitude regions, ensuring zero packet drops during critical satellite-to-satellite handovers
- Working closely with the Network Routing team to simulate how the physical orbital geometry dictates latency and jitter for our clients
- Designing the physical maneuver strategies required to maintain the constellation's precise geometry, sizing strict Delta-V budgets for initial orbit insertion, station-keeping, and end-of-life de-orbiting
- Developing the operational concepts for automated Collision Avoidance (COLA) and Space Situational Awareness (SSA), ensuring thruster burns are planned so they do not disrupt active routing paths
- Ensuring all orbital lifecycle and de-orbiting strategies strictly comply with international space debris mitigation guidelines and ITU regulatory milestones
- Building and maintaining the core astrodynamics simulation environments using tools
- Developing custom code directly into the software team's routing simulators and our broader Digital Twin
- Strong understanding of orbital mechanics, including constellation design, phasing strategies, and orbital perturbations
- Capability to model and analyse satellite constellations, including topology evolution and multi-orbit integration
- Proficiency in mission analysis and simulation tools using Orekit and STK and ability to develop custom models or automation scripts
- Understanding of inter-satellite link dynamics, including line-of-sight constraints, pointing, acquisition, and tracking considerations
- Knowledge of how orbital parameters, like slant range, elevation angle, Doppler shift, translate into telecommunications performance metrics such as latency, coverage, and link stability
- Familiarity with coverage analysis, including revisit times, visibility windows, and service continuity across diverse environments
- Understanding of manoeuvre planning, including Delta-V budgeting, station-keeping, and end-of-life strategies
- Knowledge of collision avoidance principles and space situational awareness considerations
- Awareness of regulatory frameworks related to orbital operations, spectrum allocation, and space debris mitigation
- Capability to integrate astrodynamics models into broader system simulations or digital twin environments
- A highly analytical and systems-level approach to problem-solving, connecting physical models with real-world operational and network performance outcomes
- orbital mechanics
- constellation design
- phasing strategies
- orbital perturbations
- mission analysis
- simulation tools
- inter-satellite link dynamics
- manoeuvre planning
- collision avoidance
- space situational awareness
- analytical approach
- systems-level problem-solving