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Are you passionate about space systems? Do you enjoy tackling complex engineering challenges across multiple disciplines? Would you like to contribute to the end-to-end development of small satellites and intelligent payloads, and see your work progress towards qualification, launch and space operations?
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Job Description
Elicit, define and monitor system requirements throughout the project lifecycle.
Develop system architecture, including system functions, modes, interfaces and operational concepts.
Define mission operations concepts, procedures and constraints.
Perform mission and orbit analysis to support power, link, mass and operational budgets.
Support subsystem design across multiple engineering disciplines.
Support Assembly, Integration, Verification and Testing (AIVT) activities, including environmental qualification campaigns.
Prepare and review technical documentation, including design documents, interface documents, test plans and reports.
Support risk identification, issue tracking and technical decision-making across the project lifecycle.
Minimum Qualifications
BA/BS (Licenciatura) in Aerospace Engineering, Electrical Engineering, Mechanical Engineering, Physics or a related field.
Awareness of systems engineering practices and methodologies, including requirements management, interface control and verification and validation.
Proficiency in Microsoft Excel.
Organized and methodical, with a structured approach to planning and documentation.
Comfortable working within technical standards and regulatory frameworks, such as ECSS, ESA/NASA requirements or space law.
Able to critically assess results and identify inconsistencies across requirements, interfaces and test outcomes.
Clear and precise communicator, able to convey technical information across disciplines and to external stakeholders.
Collaborative, with the ability to coordinate and guide cross-functional teams.
Proactive and autonomous, able to flag risks and drive issues to resolution.
Strong written and verbal communication skills in English.
Preferred Qualifications
Experience with model-based systems engineering tools, such as Capella.
Experience with orbital analysis tools, such as NASA GMAT.
Programming skills in Python and/or C/C++.
Knowledge of ECSS standards or similar space engineering frameworks.
Familiarity with CubeSat platforms, space-grade components or environmental qualification processes.