Aerospace & Defense Opportunities

Senior Training Specialist - Aerospace Manufacturing. Lead the development and delivery of training programs to enhance skills and performance across aerospace manufacturing operations.. 3+ years of experience in aerospace manufacturing operations or manufacturing support roles.. Aerospace Manufacturing or Lean Certification(s).. Experience in mechanical, structural, electrical, seal, or systems work (e.g., structural assembly, repair, wing/spar assembly, electrician).

We’re designing, building, and testing next generation long range strike weapons systems to give America and its Allies a definitive edge and deter future conflicts.. Senior Avionics Systems Integration Engineer. Join Castelion and play a pivotal role in advancing the development of next-generation hypersonic missile systems.. Support hardware-in-the-loop (HIL) testing, flight operations, and post-flight assessments, ensuring real-time system health monitoring and issue resolution. Contribute to the development and validation of advanced avionics capabilities, including power systems, sensors, vehicle networks, RF, and control systems

You’ll work on hybrid and battery propulsion systems, composite airframe structures, and payload integration that push the boundaries of endurance flight.. Design and improve drone subsystems, including hybrid propulsion systems, composite and CNC airframe structures, cooling systems, and payload mounts. Proficiency in 3D CAD (e.g., SolidWorks, Fusion 360). 2-3 years experience with composites, machining, and additive manufacturing. Familiarity in 3D rendering software such as Keyshot or Solidworks Visualize

As a Principal Jet Propulsion Engineer, you will be the technical lead responsible for the selection, performance modeling, integration, and validation of gas turbine propulsion systems for our next-gen UAV. You will architect the propulsion configuration, lead engine system-level analysis, and guide integration across mechanical, thermal, fuel, and control subsystems.. Perform detailed cycle analysis, performance trade studies, and thermal evaluations using tools such as NPSS, MATLAB/Simulink, and Thermal Desktop. Lead integration of jet propulsion systems with fuel, thermal, mechanical, and avionics teams, ensuring coherent system-level performance. Proficiency with simulation tools such as NPSS, MATLAB/Simulink, and/or Thermal Desktop. Preferred qualifications: PhD or MS in Aerospace Propulsion or Turbomachinery

Our team of more than 600 people works across industries including aerospace, medical devices and life sciences, unmanned systems and robotics, automotive OEM and tier 1 suppliers, commercial vehicle, electric vehicles, rail, and more.. 5+ years of experience in aerospace manufacturing, including exposure to precision components and systems. Proficient in CAD/CAM software and familiar with advanced manufacturing technologies. Solid understanding of machining processes such as milling, turning, and grinding. Knowledge of materials, coatings, non-destructive testing (NDT), and external manufacturing processes

With the first commercial lunar landing in history, multiple NASA lunar missions in development, and additional private missions on our manifest, we pride ourselves in supporting our customers and the nation in paving the way to return humans to the surface of the Moon. Our world-class team includes experts in all aspects of spacecraft subsystems design, development, and test, on-orbit operations, and safety.. We are seeking an Avionics Housing Designer to join our Lunar Lander Team. In this role, you will work on-site in Houston, TX, as part of a cross-functional engineering team developing, manufacturing, testing, and supporting the on-orbit operation of flight enclosures and mechanical structures for vehicle avionics systems.. Generate 3D CAD models, detailed part and assembly drawings, and mechanical interface documentation using Creo or SolidWorks.. Address design considerations such as vibration and shock mitigation, grounding, and EMI/EMC shielding.. Experience designing and developing electronics housings with the following considerations: Integration of printed circuit board assemblies (PCBAs).

Our launch vehicles, lunar landers, and orbital vehicles provide government and commercial customers with full mission services from low Earth orbit to the surface of the Moon and beyond.. Firefly is hiring for an Avionics Hardware Engineering Manager to lead a team of engineers who are responsible for the development, production, test, and integration of various electrical components for all space vehicles.. Contribute directly to Avionics hardware development tasks, potentially including circuit design, harness design, and/or systems integration.. BS or MS in Electrical Engineering, Aerospace Engineering, Computer Science or other related fields. Knowledge of Inventor and/or NX CAD software

That means changing the way we fly, fueling jets in an eco-friendly way, keeping buildings smart and safe and even making it possible to breathe on Mars. Are you ready to help us make the future?. It represents a significant advancement in aviation connectivity, designed to enhance flight operations, situational awareness and improve efficiency for pilots, operators, and airlines by leveraging data connectivity in real-time.. Honeywell Datalink platforms are designed to seamlessly integrate with various Avionics, Flight Management Systems (FMS) and Communication Management Function (CMF) systems, ensuring that pilots and operators can utilize existing systems while benefitting from the additional real-time communication services.. In this role, you will have significant impact on the development and advancement of avionics technology for Aircraft Data Communications and Flight Management Systems (FMS).. Some of the product areas include Aircraft ControlSystems, FMS Datalink, EGPWS (Ground Proximity Warning Systems), Runway &Landing Surveillance, Weather Radar, Traffic & Surveillance, Radio Navigation Systems,Global Navigation Systems, Multi-Constellation Satellite Systems),Next Gen 5G Radar Altimeter, and RF technologies.

The ideal candidate will embrace the opportunity to work with current faculty to reinforce and enhance MEMs commitment to offerings in aerospace/aeronautics. A successful candidate demonstrates proficiency in some of the following: compressible flow, aerodynamics, combustion, jet propulsion, aircraft design and performance, aerospace structures, aerospace controls, satellites/spaces systems, flight mechanics, turbomachinery, helicopter dynamics, and/or UAVs. Candidates should have previous design and laboratory experience and a commitment to excellence in the education of undergraduate and graduate students. Example course topics include orbital mechanics, thermal fluids, control systems, manufacturing, jet turbines, aerodynamics, space systems, aerospace structures, compressible flow. Courses leveraging expertise with computer-aided design, engineering and prototyping, Computational Fluid Dynamics (CFD), and Finite Element Analysis (FEA) will be a plus. Experience in and ability to demonstrate and apply some of the following: MATLAB, Python, R, SQL, Java, C

The ideal candidate will have a deep understanding of the Radar Control Computer (RCC) and Radar Signal Processor (SigPro), including diagnostics, software-hardware interaction, and performance tuning for Aegis Baseline 7/9.. The candidate should have a demonstrated understanding of real-time radar system operation, waveform generation, and digital signal processing techniques.. 10+ years of experience with Aegis Combat System radar components. Experience with track initiation, beamforming, calibration, and signal integrity with naval radar systems. Deep understanding of Aegis Weapon System integration and fire control components

Operating at altitudes 20 times closer to Earth than Low Earth Orbit (LEO) satellites, our drones deliver superior 5G direct-to-device communication and ultra-high-resolution imagery.. As a Senior Aerodynamics Engineer, you will play a critical role in shaping the aerodynamic performance of our stratospheric drones.. Conduct computational fluid dynamics (CFD) simulations to evaluate aerodynamic performance, identify improvement opportunities, and validate design decisions.. Work closely with teams in structures, propulsion, thermal systems, and controls to ensure seamless integration of aerodynamic designs.. Experience with Siemens STAR-CCM+ or other CFD tools.

We need you to bring creative ideas and diverse backgrounds to help us envision, shape, and deliver systems that will enable the exploration of space while benefiting people here on Earth.. We are excited about what we do, and we need you on our team as we take on exciting challenges for NASA’s pursuits in deep space exploration.. As NASA’s largest engineering solutions provider working together with NASA at centers across the United States.. We have an exciting opportunity for Avionics Network Engineer to join the team with HX5, a teammate company.. Design the distributed network architecture for the Gateway Modular Spacecraft.

Join our dynamic team as EMI/EMC Analyst - Space Exploration Avionics Systems and become a vital contributor to support NASA as an Oceaneering Teammate on the JSC Engineering, Technology, and Science (JETS) II contract.. As an integral part of our organization, you'll play a crucial role in the Systems Engineering and Technical Integration section in the Engineering Department on the NASA JSC Engineering, Technology and Science II (JETS II) Contract.. Work with other EMI/EMC engineers in support of the Avionics Division on-site at NASA Johnson Space Center.. General knowledge of and basic hands-on experience with of all associated EMI/EMC laboratory test equipment including: Spectrum Analyzers, Radiofrequency (RF) Amplifiers, Signal. Experience with analysis tools such as SPICE, Matlab and Simulink, Mathcad, LabVIEW, and other EMI/EMC simulation and analysis tools.

We have an exciting opportunity for a EMI/EMC Analyst - Space Exploration Avionics Systems to join our JETS II contract team at NASA Johnson Space Center in Houston, TX.. Collaborate with other EMI/EMC engineers supporting the Avionics Division on-site at NASA Johnson Space Center.. Support EMI/EMC testing at both on-site and off-site test chambers for space-flight electronic hardware.. Hands-on experience with EMI/EMC lab equipment such as spectrum analyzers, RF amplifiers, signal generators, and antennas.. Experience with satellite or spacecraft design/testing, EMI testing setups, and analysis tools like SPICE, Matlab, and LabVIEW.

The Applied Systems Laboratory (ASL) is an applied R&D laboratory conducting research in full life-cycle product development for military aviation mission systems for both manned and unmanned aircraft and missile defensive systems. Actsas a Surrogate for the Laboratory Director for meetings and other Laboratorybusiness. Military aviation mission systems with specific experience with system-of-systems integration, electronic warfare, multi-sensor data fusion, tactical datalinks, LVC training, human system integration, modular open system approaches, and DevSecOps practices for software development. Collaborative autonomy for unmanned homogeneous and heterogeneous airborne systems, systems engineering for uncrewed aircraft, electronic warfare, human system integration, modular open system approaches, and DevSecOps practices for software development. Familiarity across all ASL’s core military research areas: aviation mission systems, collaborative autonomy for unmanned aviation systems, missile defense systems, human systems integration, systems engineering, electronic warfare, modular open system approaches, DevSecOps software development lifecycle.

You will help shape the future technology of the HondaJet aircraft family by providing engineering oversight, as well as guidance on compliance and FAA regulations, for new product development programs and upgrades for existing platforms.. Define, plan, and develop complex system level requirements to support avionics systems including digital cabin systems.. Perform systems level integration activities for aircraft avionic systems including Control and Display Systems, Communication Systems, Audio Systems, Navigation Systems, flight control systems, landing gear systems etc.. You have applied this expertise over 5+ years in Engineering and have spent 4+ years working with integrated aircraft avionic/electrical systems in the areas of design engineering, system analysis, system test, and compliance findings.. Experience in test and certification of Avionics, Automatic Flight Control Systems, Autopilots, and Air Data Systems.

About the job Avionics Systems Integration Engineer About Castelion. Were designing, building, and testing next generation long range strike weapons systems to give America and its Allies a definitive edge and deter future conflicts.. Join Castelion and play a pivotal role in advancing the development of next-generation hypersonic missile systems.. Support hardware-in-the-loop (HIL) testing, flight operations, and post-flight assessments, ensuring real-time system health monitoring and issue resolution. Contribute to the development and validation of advanced avionics capabilities, including power systems, sensors, vehicle networks, RF, and control systems

The Columbia University School of Engineering and Applied Science (SEAS) welcomes applications for a tenure-track faculty position at the Assistant Professor or Associate Professor rank (without tenure, but on tenure-track) in the broad field of Aerospace Engineering.. Areas of emphasis include, but are not limited to: spacecraft design and engineering, autonomous flight systems, smart/adaptive materials for aerospace systems, generative AI for aerospace systems, remote sensing and communications, hypersonic fluid dynamics and control, advanced and sustainable propulsion systems, extraterrestrial exploration, and life support systems.. Aerospace systems of interest range from spacecraft and satellites to commercial transportation, EVTOLS, drones, and novel flight systems.. Candidates are additionally encouraged to consider the intersection of their proposed areas of research with departmental and school-wide initiatives relating to energy and sustainability, biomechanics, nano/micro technology, engineering and medicine, and artificial intelligence.. Applicants for this position must demonstrate the potential to do pioneering research and to teach effectively, and lead the development of a new Aerospace Engineering program within the school.

Job Title: Avionics Technician III. The Avionics Technician Level III reports to the Project / Shift Manager and receives task assignments and technical supervision from the Lead Technician. Inspect, test, troubleshoot and repair the complex electronic components of communication, navigation, and flight-control systems (for engine operations, flight patterns, navigation systems, radio communications, and weather radar systems). Be proficient with wire stripping, connector repair and re-pinning, wire/harness layup, crimping tools and use of avionics specialized test equipment. Follow the requirements of the Repair Station Manual, Federal Aviation Regulations, Airworthiness Directives, Advisory Circulars, Manufacturer’s Service Bulletins, Aircraft Maintenance Manual (AMM), Aircraft Illustrated Parts Catalog (IPC), Fault Isolation Manual (FIM), Wiring Diagram Manual (WDM), Standard Wiring Practices Manual (SWPM), and any other required documentation to perform assigned work.

At Relativity Space, we have two audacious goals: to build the next great commercial launch company with Terran R and to become America's leading force in additive manufacturing innovation. This journey begins right here on Earth – where we design, build, and fly rockets to deliver customer payloads to orbit. Your journey with us is more than just a job – it’s an opportunity to shape the future of aerospace technology, additive manufacturing, and the human experience alongside a community of passionate, creative individuals. The Avionics team is responsible for all aspects of the electrical design on the rocket, from electronics, interconnects, associated mechanical design, testing and initial production. This team's scope includes the flight computers, power systems, RF systems, PCB design, autonomous flight safety systems, and telemetry.