engineering
Posted Mar 18Mission Systems Engineer, MBSE
at Turion Space
Irvine, United StatesOn-site
Responsibilities
- - Maintain model traceability from mission-level ConOps through system requirements, design decisions, and verification methods.
- Monitor progress in relation to milestones, manage action items, and highlight risks or blockers to stakeholders. - Develop and enforce MBSE style guides, profile usage standards, and modeling conventions across the program team. - Explore and implement model integrations with analysis tools,
Requirements
- The Mission Systems MBSE will work to ensure that all the realized system meets the desired function, performance, and reliability of the mission at hand.
- Qualifications: - Bachelor's degree in Systems Engineering, Aerospace Engineering, Electrical Engineering, or a closely related technical discipline. - 5+ years of
- experience in systems engineering on space, defense, or other complex engineered systems. - Demonstrated hands-on
- experience developing SysML models using tools such as Cameo Systems Modeler (MagicDraw), Rhapsody, Sparx Enterprise Architect, or equivalent. - Working knowledge of systems engineering processes and standards, including NASA SE Handbook, INCOSE SE Handbook, or MIL-STD-499. - Experience with
- - Familiarity with space mission architectures including satellite or spacecraft subsystems (ACS, power, C&DH, RF communications, propulsion) - Familiarity with ground segment architecture and components.
- - Strong written and verbal communication skills, with the ability to present complex technical concepts to diverse audiences including non-modelers.
- - Must be able to obtain a Secret and/or a TS/SCI clearance.
- experience across the entire life-cycle of a space mission, including gathering requirements, design, integration, testing, risk management, commissioning, and operating the space vehicle. - Hands-on
- experience with spacecraft integration, flatsat testing, or mission operations. -
- Experience integrating MBSE models with simulation, analysis, or digital twin environments (e.g., AFSIM, STK, MATLAB/Simulink, or model-based verification frameworks). - Familiarity with Digital Engineering (DE) principles and initiatives including DoD Digital Engineering Strategy and NASA Digital Transformation efforts. -
- Experience with agile or iterative development methodologies applied to space systems programs. - A love for small fast-paced teams and fast-moving organizations.