Project System Safety Engineer

Overview

Provide system safety engineering for marine/software systems, ensuring MIL-STD-882 compliance.

Key Responsibilities

• fault tree
• safety analysis
• requirements management
• coverage metrics
• mil-std-882
• hazard analysis

Tasks

-Assisting with the development of system requirements, functional requirements, and allocation of the same to individual hardware, software, facility, and personnel components. -Prepares reports and presents results to management and client. -Conduct system safety analysis to identify, track and mitigate safety critical items. -Developing sections of systems engineering documentation, including system engineering plans, initial capabilities documents, requirements specifications, and interface control documents. -Produce MIL-STD-882 compliant systems. -Reviews architecture, requirements and interface artifacts for safety on complex hardware/ software systems. -Model system function failure conditions with Fault Tree Analysis (FTA) IAW SAE ARP 4761. -Evaluate systems, associated support equipment and facilities, networks and information systems to ensure designs meet applicable safety specifications and standards. -Has provided system safety engineering, with a focus on software, support on submarine and/or manned submersibles in accordance with US navy requirements such as SS800-AG-MAN-010/P-9290 and SUBSAFE System Certification Procedures. -Has provided system safety engineering, with a focus on software, support in accordance with International Association of -Independently analyze and recommend safety criteria in system design, equipment and procedures to mitigate or eliminate -Track and report software statement/branch coverage metrics. -Guide system development and implementation planning through preparation of hazard analysis, failure modes and effects analysis as well as additional reliability, availability and maintainability analyses. -Prepare engineering and technical analyses, reports, and other technical documentation, host internal peer reviews, and facilitate configuration managed releases in support of Manned Submersible System Certification IAW NAVSEA SS800-AG-MAN-010/P-9290 as well as ABS Rules for Building and Classing Marine Vessels (MVRs). -Collaborate with Systems Engineering, Software Engineering and System Test & Evaluation organizations to ensure acceptable safety critical function verification. -participation in the development of systems engineering documentation, including concepts of operations (CONOPS), requirements specifications, and interface control documents, but with a focus on. -Reviews progress and evaluates results of work accomplished by self. -Proactively support planned work for successful on time delivery of safety product(s) i.e., periodically communicate dependencies, progress / blockers with stakeholders. -Apply knowledge, methodologies and principles of safety engineering as defined in MIL-STD-882. -Performs functional analysis, timeline analysis, detailed trade studies, requirements allocation and interface definition studies to translate customer requirements into hardware and software specifications. -Apply methodologies, best practices and principles of safety engineering as defined in corresponding System Safety Program Plan (SSPP). -Managing system requirements and derived requirements to ensure the delivery of production systems are compatible with the defined system architectures, including Department of -the development of hazard analyses and reliability analyses. -Present software safety results to customers. -Participating in the development of system engineering documentation, including system engineering plans, requirements specifications, and interface control documents.

Requirements

• jira
• mil-std-882
• secret clearance
• systems engineering
• mbse
• software safety

What You Bring

-Experience with Jira and Github. -Understanding of MIL-STD 882E “Department of Defense Standard Practice System Safety” or equivalent standard. -Must be able to effectively communicate with all levels of leadership and work independently. -Attention to detail and interest in designing safety compliant underwater systems. -Experience with VectorCAST or automated test tools (Jacoco, McCabe, MSTest, NUnit). -An active DoD Secret clearance or higher. -Must be a US citizen. -Minimum 10 years of practical experience in Systems Engineering. -Must have demonstrated and be willing to independently manage multiple tasks with various stakeholders in parallel i.e., assess design changes, field reported issues, system deficiencies, ‘pop-up’ tasking, etc. -Working knowledge of MBSE tools (ModelCenter, Cameo) -7+ years of practical experience in systems, safety analyses, software or quality engineering. -Experience creating System/Software Safety Assessment Reports and Plans (SSAR). -Capable of producing software safety plans and executing to them. -Demonstrates ability to devise innovative solutions to problems. -Proficiency understanding the following programming languages: C, C++, C#, Python and/or Java. -Solid written and oral communications skills, including ability to effectively document, convey, and present engineering concepts and products to team members and customers. -Software Safety Assessment. -Familiarity with military Systems Safety and process standards and their Industry equivalent such as: MIL-STD-882, etc. -Classification Societies certification requirements (ABS and/or DNV preferred). -Preliminary Hazard Analysis (PHA). -Ownership of the following deliverables -Defense Architecture Framework (DoDAF and Service-oriented Architecture (SOA). -Ability to grow / enhance a process our product by applying your own unique skillset and perspective. -Displays excellent technical judgment, attention to detail, and ability to look at the “big picture” in system design. -Minimum 7 years of experience at the design engineering level with: -Must have ability to obtain and maintain United States Government Department of Defense (DoD) Secret Clearance. -Working knowledge with an SEDB tool (CRADLE, DOORS etc). -Experience with US Department of Defense programs or the field of ocean engineering. -Functional Hazard Analysis (FHA). -To perform this job successfully, an individual should have strong knowledge of Microsoft 365 environment. -Candidate will have to perform in an ISO-9000 rated company in a rapidly changing and demanding atmosphere. -Experience conducting safety hazard analyses such as Preliminary Hazard List (PHL), Preliminary Hazard Analysis (PHA), or Functional Hazard Analysis (FHA). -Must have greater than 7 years of experience practicing System Safety Engineering -BS Degree in Systems Engineering, Computer Science, Mathematics, Computer Engineering, Electrical Engineering, Mechanical Engineering or related technical field. Commensurate experience will be considered. -SME in software and systems safety efforts across OTECH. -Must be independently motivated to learn new methods / practices of analysis.

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About Oceaneering

-Evolved into a global subsea engineering pioneer headquartered in Houston. -Publicly traded since its 1969 merger. -Operate the world’s premier fleet of work-class ROVs, handling everything from deepwater intervention to pipeline inspection. -Manufactured Products arm delivers umbilicals, subsea tooling, mobile robots and even animatronics for blockbuster theme-park rides. -Offshore Projects Group tackles complex installations, riserless well interventions and large-scale maintenance offshore. -Integrity & Digital Solutions team provides inspections, data analytics and connectivity tools to optimise subsea assets. -Aerospace & Defense division builds thermal-protection systems, space-suits and space-robotics for NASA and military customers. -Unusual projects include recovering the Confederate submarine Hunley, probing TWA Flight 800 wreckage, and creating park rides like Jurassic Park and Transformers. -Bridge energy, marine, space and robotic sectors with creative engineering solutions.

Sector Specialisms