Guidance, Navigation, & Controls (GNC), Controls Engineer

Axiom Space•Houston, TX

1d•Onsite

About The Position

Axiom Space is building the world’s first commercial space station – Axiom Station. Serving as a cornerstone for sustained human presence in space, this next-generation orbital platform fosters groundbreaking innovation and research in microgravity, and cultivates the vibrant, global space economy of tomorrow. Today, driven by the vision of leading humanity's journey off planet, Axiom Space is the principal provider of commercial human spaceflight services to the International Space Station and developer of advanced spacesuits for the Moon and low-Earth orbit. Axiom Space is building era-defining space infrastructure that drives exploration and fuels a vibrant space economy that will empower our civilization to transcend Earth for the benefit of every human, everywhere. Axiom Space fosters a work environment inclusive of all perspectives. We are the pioneers of commercial space, leading the transformation of low-Earth orbit into a global space marketplace. Our mission-driven team is seeking a bold and dynamic GNC Engineer who is fueled by high ownership, execution horsepower, growth mindset, and driven to understand our world, science/technology, and life itself, for the benefit of all on Earth and beyond. POSITION SUMMARY We are looking for a resilient, high-energy, experienced Senior GNC Engineer with experience designing control systems for flight vehicles. The engineer will work in fast paced environment to contribute to the development of control systems across the program lifecycle for Axiom Space’s modules. The successful engineer will work well across multi-disciplinary teams and use a system level understanding when implementing their design. The role requires strong technical background, organizational time management and adept communication skills. Will be based onsite at our Space Station Development Facility (SSDF).

Requirements

Bachelor’s degree in Aerospace Engineering or other related technical degree required
4-9 years of experience, or an equivalent combination of education and experience required
Development of attitude control systems on flight vehicles (spacecraft preferred) with experience in at least one of the areas below:
Control law development and stability analysis
Momentum exchange actuators, including Reaction Wheels and CMGs
Control systems for vehicles with flexible modes and articulating components
Optimization techniques such as least squares, linear/quadratic programming
Experience with SWIL and HWIL testing and integration
Actuator testing, characterization, and model development
Experience developing with 6-DOF Monte Carlo simulations, with experience with NASA’s Trick simulation framework and JSC Engineering Orbital Mechanics (JEOD) preferred
Proficient with C++, Matlab, and/or Python coding languages
Track record of delivering outcomes in ambiguous, fast-moving environments
Uses good judgement to problem-solve proactively, positively impacting hard challenges
Proven to deliver high quality results under tight deadlines
Grit
Passion for space and the mission
Entrepreneurial, growth mindset
Perseverance
Resourceful, adaptable
Executes priorities with precision and pace
High EQ and ability to collaborate within teams and cross-functionally
Tech-savvy in using systems and tools to move faster and smarter
Excellent written and verbal communication skills
Embody our core values of leadership, innovation, and teamwork.
Accountability
Sense of Urgency
Extreme Ownership
Execution and Delivery
Efficiency
Effectiveness
Must be able to complete a U.S. government background investigation.
Proof of U.S. Citizenship or US Permanent Residency is a requirement for this position.
Must be willing to work evenings and weekends as needed to meet critical project milestones.

Responsibilities

Design, analyze, and implement GNC algorithms for aerospace vehicles.
Develop and refine control laws using classical and modern control techniques (PID, LQR, MPC, adaptive control, etc.).
Evaluate and integrate spacecraft control effectors (e.g. thrusters, reaction wheels, CMGs).
Perform 6‑DOF modeling, simulation, and performance analysis to evaluate system behavior under nominal and off‑nominal conditions.
Build high‑fidelity dynamic models of vehicles, sensors, actuators, and environmental disturbances.
Conduct Monte Carlo analyses, sensitivity studies, and stability assessments to validate robustness and reliability.
Use tools such as MATLAB/Simulink, Python, C/C++, or similar environments to develop simulations.
Translate GNC algorithms into flight‑ready software, ensuring numerical stability, computational efficiency, and real‑time performance.
Collaborate with embedded software teams to integrate, test, and verify GNC functionality on hardware‑in-the-loop (HIL) systems.
Support development of requirements, interface definitions, and verification plans for flight software.
Plan and execute verification and validation activities, including unit tests, SIL/HIL testing, and integrated system tests.
Analyze flight test or mission data to assess GNC performance and identify areas for improvement.
Support troubleshooting and root‑cause analysis for anomalies observed during testing or operations.
Work with hardware teams to define performance requirements and ensure compatibility with GNC architecture.
Contribute to system‑level design reviews, requirements development, and architecture decisions.
Collaborate with propulsion, avionics, structures, and mission operations teams to ensure GNC solutions align with overall vehicle design.
Provide technical leadership on sub‑projects, mentor junior engineers, and support design trade studies.
Prepare technical reports, design documentation, test plans, and analysis summaries for internal and external stakeholders.
Present findings at design reviews, customer meetings, and cross-disciplinary engineering forums.
Ensure compliance with aerospace standards, safety requirements, and certification processes.
Communicating project progress, status, and potential issues to stakeholders and leadership.
Implementing and maintaining agile project management methodologies throughout the project lifecycle.
Perform additional job duties as assigned.