
SE3 Labs · Munich
Own the physical integration of our autonomy platform into drones, payloads and ground systems. Your work defines the fieldability, performance and production q...
Own the physical integration of our autonomy platform into drones, payloads and ground systems. Your work defines the
fieldability, performance and production quality of our core hardware.
SE3 Labs is building Spatial AI by combining 3D computer vision with large language models (LLMs). We believe the ability to
reason about and act within physical space is foundational to unlocking the next generation of automation, from construction to
smart infrastructure, and with a strong focus on defense.
Now, we’re building the physical platform to bring Spatial AI to life. That means high-performance, real-world robotic systems and
we’re looking for a skilled, hands-on engineer who can turn strong concepts into robust products.
As Mechanical Design Engineer, Unmanned Systems, you’ll design the mechanisms, enclosures and physical integration of our on-board
systems into various UAV platforms. From concept trade-off to CAD to flight test and on to production introduction, you will bring
electronics, airframes, payloads and ground systems together into flying, connected and advanced multi-domain systems.
You’ll report directly to our Hardware Lead and collaborate most closely with electronics developers and prototyping team. SE3
sets no bounds on collaboration so you will engage with our customer-facing colleagues and AI software developers to realize an
ambitious vision of whole systems with intelligent drones at the center. Mechanical integration will be your domain, and you’ll be
trusted to own it independently.
mechanisms, packaging and integration into UAVs and ground systems such as charging-, control- and launch platforms
partners and armed forces
in collaboration with our manufacturing partner network
to tested (sub-) system
works. You love building things that last.
the limits together with you
latest advancements and a true productivity edge
1. Intro Call (20 min): Let’s get to know each other (conducted by our Talent Team)
2. Technical Interview (60 min): Diving deeper into your experience, skills and and engineering thought process with practical
examples (with Lukas, our Hardware Lead)
3. Team Dinner/Lunch: See if it’s a culture fit on both sides
ABOUT US STARK is a new kind of defence technology company, revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high-performance unmanned systems that are software-defined, mass-scalable, and cost-effective. This provides our operators with a decisive edge in highly contested environments. We’re focused on delivering deployable, high-performance systems. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe. YOUR MISSION As a Mechanical Design Engineer at STARK, you will be the architectural force behind the physical hardware that carries our cognitive core into the field. You will lead the design and development of complex components and assemblies, translating ambitious technical concepts into operational products that can withstand the rigors of contested environments. You will work hand-in-hand with our systems, stress, and electrical engineering teams, pairing rigorous mechanical design with rapid hardware iteration. You will be responsible for navigating fast-paced engineering projects with tight deadlines, ensuring that every bracket, housing, and structural element is optimized for performance and mass-scalability. This role is about ownership and leadership: taking a product from an initial whiteboard concept to a final, production-ready state. You will not just be making drawings; you will be defining the physical standards of the next generation of autonomous defence technology. RESPONSIBILITIES * CAD Development: Create and maintain high-fidelity models, assemblies, and detailed technical drawings using CATIA V5/V6 within the 3DEXPERIENCE environment. * Standards & Precision: Define and enforce best practices for parametric modeling, Geometric Dimensioning and Tolerancing (GD&T), and complex tolerance stack-ups to ensure assembly reliability. * Validation: Collaborate closely with stress engineers for load path validation and participate in critical Design Reviews (PDR/CDR) to ensure mission success. MANUFACTURING & PROCESS INTEGRATION * Material Selection: Drive decisive material and process selection, focusing on structural layout and manufacturability to meet aggressive weight and strength targets. * DFM/DfAM: Apply expert knowledge of Additive Manufacturing (DfAM), injection molding, CNC machining, and sheet metal fabrication to streamline the transition from prototype to series production. * Tooling & Testing: Design and develop critical operating equipment and specialized test benches required to validate subsystems and accelerate program velocity. * Cross-Functional Coordination & Supply Chain * Interdisciplinary Alignment: Collaborate with Electrical Engineering, Production, and Procurement to translate abstract product requirements into measurable quality objectives and repeatable manufacturing processes. * Supplier Engagement: Oversee technical engagement with external suppliers for structural components and secondary assemblies, ensuring design intent is maintained through delivery. * Execution: Identify blockers in the design-to-production pipeline and proactively push issues to resolution to maintain program momentum. QUALIFICATIONS * Experience: 2+ years of experience as a CAD Engineer or Mechanical Design Engineer with a proven focus on manufacturing processes and complex assemblies. * Background: Bachelor’s or Master’s degree in Mechanical Engineering, Aerospace Engineering, or a comparable technical field. High proficiency in CATIA V5 (Part Design, Assembly Design, Generative Shape Design). * Mindset: Mission-driven, decisive, and pragmatic. Thrives in ambiguity. You act like an owner and would rather build and iterate than wait for permission. * Communication: High proficiency (C1/C2) in both English and German, capable of communicating complex technical context to both local technicians and international leadership. * Security: Must be a citizen of a NATO member state (due to export control and security regulations).
ABOUT US STARK is a new kind of defence technology company revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high performance unmanned systems that are software-defined, mass-scalable, and cost effective. This provides our operators with a decisive edge in highly contested environments. We’re focused on delivering deployable, high-performance systems - not future promises. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe - today. YOUR MISSION As a Load & Stress Engineer, you will be responsible for ensuring the structural integrity, safety, and performance of UAV systems throughout the design, production, and testing lifecycle. You will perform classical hand calculations and advanced finite element analyses to size, validate, and optimize structural components under static and dynamic loading conditions. Working closely with mechanical design, manufacturing, and test teams, you will provide rapid, data-driven feedback to support design improvements, resolve non-conformities, and assess production or test anomalies. RESPONSIBILITIES * Perform rapid hand calculations for initial component sizing and quick verification. * You will create, validate, and maintain Finite Element (FE) models for both static and dynamic calculations. * Provide continuous, data-driven feedback to the mechanical design team to optimize structural components and systems. * Give Guidance to engineering and production decisions regarding non-conformities using rapid analytical troubleshooting. * You will actively support ground and flight test activities, including hands-on, real-time support when required. QUALIFICATIONS * You have demonstrated experience performing classical hand calculations for structural sizing. * You are experienced with HyperMesh and OptiStruct for building, maintaining, and running static and dynamic FE simulations. * You possess an understanding of flight loads, load derivation, and industry-standard global-to-local load cascading approaches. * You are capable of delivering quick, reliable analyses under tight timelines to support production or test anomalies. * You have a proven capability to be flexible and creative under conditions with limited data to deliver structural assessments. NICE TO HAVE * Ideally experience with ground test rigs, test setup, and execution. * You are familiar with ground and flight test instrumentation such as strain gauges and accelerometers. * Working knowledge of STANAG standards and regulations related to Unmanned Aerial Vehicles (UAVs). * Experience with flight vibrations and ground vibration tests(GVTs)
ABOUT US STARK is a new kind of defence technology company revolutionising the way autonomous systems are deployed across multiple domains. We design, develop, and manufacture high-performance unmanned systems that are software-defined, mass-scalable, and cost-effective - providing operators with a decisive edge in contested environments. We are focused on delivering deployable, high-performance systems - not future promises. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe, today. YOUR MISSION As the Manufacturing Engineer, you will act as the vital bridge between R&D and mass production. Your primary focus is on Industrialization, Design for Manufacturing (DFM), and Risk Mitigation (FMEA). You will embed yourself with the R&D team early in the design phase to ensure that next-generation products are optimized for high-yield, cost-effective, and scalable manufacturing. RESPONSIBILITIES * DFM/DFA Integration: Collaborate closely with R&D during early design cycles. Conduct rigorous Design for Manufacturing (DFM) and Design for Assembly (DFA) reviews to simplify designs and prepare them for automated production. * FMEA Leadership: Lead and document Process Failure Mode and Effects Analysis (PFMEA) workshops to proactively identify manufacturing risks and implement effective mitigation strategies. * Industrialization: Own the manufacturing ramp-up during. Track and manage the transition from prototype builds to pilot runs and eventual mass production. * Quality & Validation: Define early-stage quality criteria, design assembly fixtures, and collaborate with quality teams to validate that production processes meet product specifications. * General ME Support: Provide technical feedback to R&D regarding manufacturing capabilities, tolerance stack-ups, and material selection impact on production. QUALIFICATIONS * Bachelor’s degree in Mechanical Engineering, Manufacturing Engineering, or a related field. * Proven track record in NPI/Industrialization environments, successfully transitioning products from engineering labs to the factory floor. * High proficiency in running PFMEAs and applying DFM/DFA principles. Strong 3D CAD skills (SolidWorks, Creo, etc.) are essential. For further information please reach out to talent@stark-defence.com.