Omnisent is pioneering scalable acoustic sensing powered by AI — transforming audio into real-time intelligence. We build hardware software tailored for acoustic data, designed to extract insights from complex acoustic signals. Our proprietary ultra-low-power sonic devices capture and process acoustic signals in real-time, training what we call a Large Acoustic Model (LAM) — our foundation model built to decode the rich, messy, and untapped world of non-speech audio. We’re starting with the manufacturing industry, applying our tech to compressed air systems — one of the most overlooked sources of energy waste. From there, we’re expanding into energy, defense, space, and smart cities — sectors where sound works magic. Tasks Mechanical Design & Prototyping: Design and prototype enclosures for acoustic devices and embedded systems, optimized for diverse environments Create and iterate 3D CAD models (e.g., SolidWorks, Fusion 360) with attention to mechanical robustness, acoustic transparency, and manufacturability Select materials and fasteners suited for harsh environments, low-vibration, and thermal resilience Device Integration: Collaborate with electrical and signal processing teams to ensure proper mechanical integration of acoustic devices and PCBs Develop mechanical designs that support low-noise signal acquisition and maintain acoustic fidelity Support vibration damping, acoustic isolation, and thermal management in devices assemblies Certification & Compliance: Prepare hardware for environmental and regulatory certifications, including IP (e.g., IP67/IP68), CE marking, and mechanical stress testing (vibration, shock, temperature cycling) Document designs and ensure alignment with certification standards during the development lifecycle Assist in coordinating with test labs and managing compliance documentation Cross-Functional Collaboration: Work closely with firmware, hardware, and AI teams to ensure tight integration between mechanical, electrical, and software components Support prototype development, functional testing, and iterative field deployment in real-world conditions Requirements Basic Qualifications: Bachelor’s degree in Mechanical Engineering, Mechatronics, or a related field, or 2 years of relevant industry experience 2 years of experience in mechanical design for device housings or electromechanical systems Experience with CAD tools (e.g., SolidWorks, Fusion 360, or similar) for 3D modeling, tolerance analysis, and rapid prototyping Understanding of material selection and manufacturing methods for robust, low-noise enclosures Familiarity with certification requirements for device housings, including IP ratings (e.g., IP67), CE compliance, and environmental standards (e.g., vibration, shock, temperature) Fluency in English Valid EU work permit Preferred Qualifications: Master’s or PhD in a technical discipline (e.g., Mechanical Engineering, Mechatronics, Product Design, or a relared field) 4 years of experience designing acoustic device housings, with focus on vibration isolation, thermal behavior, and acoustic performance 4 years of experience preparing systems for regulatory certification, including IP67/IP68 sealing, CE marking, environmental stress screening (e.g., shock, vibration, temperature cycling), and compliance documentation Familiarity with acoustic simulation and testing tools, as well as mechanical FEA (e.g., ANSYS, COMSOL, or equivalent) German language skills Join us in redefining how the world listens, understands, and responds through intelligent acoustic sensing.