{"version":"0.1","company":{"name":"YubHub","url":"https://yubhub.co","jobsUrl":"https://yubhub.co/jobs/skill/fault-tree-analysis"},"x-facet":{"type":"skill","slug":"fault-tree-analysis","display":"Fault Tree Analysis","count":2},"x-feed-size-limit":100,"x-feed-sort":"enriched_at desc","x-feed-notice":"This feed contains at most 100 jobs (the most recently enriched). For the full corpus, use the paginated /stats/by-facet endpoint or /search.","x-generator":"yubhub-xml-generator","x-rights":"Free to redistribute with attribution: \"Data by YubHub (https://yubhub.co)\"","x-schema":"Each entry in `jobs` follows https://schema.org/JobPosting. YubHub-native raw fields carry `x-` prefix.","jobs":[{"@context":"https://schema.org","@type":"JobPosting","identifier":{"@type":"PropertyValue","name":"YubHub","value":"job_4670c5d1-302"},"title":"Sr. Systems Development Engineer","description":"<p>We made history and now we work to transform the future – for our customers, our communities and our families. You&#39;ll see your work on the road every day, helping people move freely and pursue their dreams. At Ford, you can build more than vehicles. Come build what matters.</p>\n<p>In this position, you will interact with feature owners and software development teams to scope and define robust systems interface and software requirements, with a strong emphasis on proactive Design Failure Mode Effects and Analysis (DFMEA). This includes the process of deriving functional level requirements from feature level requirements, and utilizing a model-based systems engineering approach in conjunction with Behavior Driven Development methodology to define individual functions, use cases, sequence diagrams, and test cases, ensuring design for reliability and early identification and mitigation of potential failure modes across the In-Vehicle Infotainment and Connectivity sub-system and software levels.</p>\n<p>Responsibilities:</p>\n<ul>\n<li>Executing functional partitioning of features, focusing on identifying and isolating potential failure points and ensuring fault tolerance.</li>\n<li>Developing robust and fault-tolerant interfaces between allocable classes, considering potential failure propagation and implementing safeguards.</li>\n<li>Specifying comprehensive system-level and ECU software requirements, explicitly defining expected behavior, error handling, and failure recovery mechanisms based on DFMEA principles.</li>\n<li>Adopting model-based systems engineering (MBSE) methodologies for specification development, leveraging modeling and simulation for early failure mode identification and mitigation.</li>\n<li>Using Requirement Management tools for requirement authoring, change management, and specification generation, ensuring traceability to DFMEA activities and reliability targets.</li>\n<li>Using Behavior Driven Development (BDD) with Gherkin syntax to develop scenarios and associated test cases, incorporating negative test cases and failure scenarios derived from DFMEA analyses.</li>\n<li>Leading and performing comprehensive Design Failure Mode Effects and Analysis (DFMEA) activities throughout the product lifecycle to ensure the thoroughness, robustness, and reliability of software and system designs, proactively identifying and addressing potential failure modes.</li>\n<li>Managing cross-functional working level meetings with Feature/Function Owners, module owners, HMI 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Roadrunner is a reusable, vertical take-off and landing (VTOL), operator-supervised Autonomous Air Vehicle (AAV) with twin turbojet engines and modular payload configurations that can support a variety of missions.</p>\n<p>As a Reliability Engineer at Anduril, you will leverage your extensive knowledge of advanced Reliability tools and methodologies to drive excellence in our Reliability programs. You will support the Systems, Hardware, &amp; Software Engineering teams across the product development lifecycle by guiding Failure Modes &amp; Effects Analysis, predictive analysis, qualification test planning, field performance monitoring, and root cause &amp; corrective action activities for your product(s).</p>\n<p>The right person for this role has knowledge of design and development with a reliability focus on unmanned aircraft systems, as well as exposure to test, analysis, manufacturing, and continuous improvement in a production environment. If you are someone who has hands-on experience throughout the new product development life cycle from concept to customer delivery, loves to build world-class Reliability processes, can work efficiently across multi-disciplinary teams, and be accountable for results, then this role is for you.</p>\n<p>Responsibilities:</p>\n<ul>\n<li>Support and review system block diagrams, interface control documents, and schematics for compliance, redundancy, and accuracy against requirements and concept of operations.</li>\n<li>Lead Failure Modes &amp; Effects Analysis efforts and collaborate with cross-functional Engineering teams to implement product improvements for Reliability.</li>\n<li>Perform predictive reliability analysis to calculate probability of loss of control, loss of asset, and MTTF/MTBF utilizing Anduril requirements, specifications, and relevant industry standards (i.e. MIL-HDBK-217Plus).</li>\n<li>Develop Qualification Test plans to ensure appropriate requirements coverage, and work with Test Engineering to fixture, instrument, and execute test campaigns.</li>\n<li>Develop Maintainability prediction models using MIL-HDBK-472, and support the development of Preventative Maintenance &amp; Sparing plans.</li>\n<li>Perform Weibull analysis utilizing data from Qualification campaigns and from fielded assets.</li>\n<li>Work with Quality and Manufacturing Engineering to ensure inspection and acceptance test gates are in place and documented against requirements.</li>\n<li>Use data analysis techniques to highlight key problem areas for deployed products, and drive root cause analysis &amp; corrective action implementation to closure.</li>\n<li>Develop and implement Reliability processes for the business to improve and streamline our Design, Manufacturing, and Deployment Operations efforts for rapid development.</li>\n<li>Support Development Milestone Reviews through identification of appropriate entry and exit criteria, and work with Quality Engineering to guide the hand off process to production.</li>\n</ul>\n<p>Required Qualifications:</p>\n<ul>\n<li>Minimum of 5 years experience as a Reliability Engineer, Design/Development Engineer, or Test Engineer</li>\n<li>B.S. Degree in Mechanical Engineering, Aerospace Engineering, Systems Engineering, or equivalent technical discipline</li>\n<li>Experience with safety-critical hardware &amp; software systems in the defense or aerospace industry, with a preference for experience with unmanned drone or aircraft systems</li>\n<li>Experience or familiarity with MIL-STD-810, MIL-HDBK-217, MIL-STD-461, MIL-STD-516C, and MIL-STD-1629</li>\n<li>Experience setting up a Reliability Engineering framework for a product or program, including support of production testing, field testing, data acquisition, and data analysis</li>\n<li>Expertise in reliability analysis techniques, including FMEA/FMECA, predictive modeling, Weibull analysis, and Fault Tree Analysis</li>\n<li>Experience with generating qualification testing requirements and executing tests to proactively characterize product behavior and performance</li>\n<li>Failure investigation/analysis experience with proven track record of solving problems and preventing reoccurrence</li>\n<li>Design Review Experience (PDR, CDR, MRR) and confident in presentation skills across all levels of leadership</li>\n<li>Eligibility to obtain/maintain a U.S. Secret clearance, as required</li>\n</ul>\n<p>Preferred Qualifications:</p>\n<ul>\n<li>M.S. 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