Analyze link availability, investigate link outages, and optimize algorithms to study and maximize network performance - Use RF and optical link budgets with orbital constellation dynamics to model time-varying system capacity - Conduct trade-off analysis to benefit customer experience and optimization of resources (costs, power, spectrum), including optimization of satellite constellation design and link selection - Work closely with implementation teams to simulate expected system level performance and provide quick feedback on potential improvements - Analyze and minimize potential self-interference or interference with other communication systems - Provide visualizations, document results, and communicate them across multi-disciplinary project teams to make key architectural decisions Basic Qualifications - Master's degree in computer science, electrical engineering, automation engineering, or equivalent - 5+ years of work in satellite system design, modeling, and analysis, or equivalently complex, time-dynamic systems. This role in particular will be responsible for 1) evaluating complex multi-disciplinary trades involving RF bandwidth and network resource allocation to customers, 2) understanding and designing around hardware/software capabilities and constraints to support a dynamic network topology, 3) developing heuristic or solver-based algorithms to continuously improve and efficiently use available resources, 4) demonstrating their viability through detailed modeling and simulation, 5) working with operational teams to ensure they are implemented.