Responsibilities As a Project Safety Engineer, you conduct safety engineering activities and produce the required artefacts on time, budget and quality for the allocated project / product. This includes: Conducting a range of activities that identify and address safety hazards and risks by ensuring compliance to legislations, safety policies and the Thales Solution Safety Management System Developing and maintaining safety key artefacts: system safety program plans, safety case reports, hazard logs, risk assessments, preliminary system safety assessments and system safety assessments commensurate with the processes, standards and best practices employed by air traffic management domain including fault tree analysis and GSN Work closely with the engineering integrated product teams to identify, derive and manage safety requirements, ensure that they are included in the solution design baseline and that their compliance is demonstrated through verification & validation and developing effective mitigations and controls to hazards, procedure and/or training Provide timely safety subject matter expertise and engineering support. This includes participating and/or chairing system safety working groups, safety review boards and other safety committees and workshops as required Apply Model Based System Engineering tools and modelling methodologies to define system safety functions and requirements as well as managing safety data Escalate risks when necessary, provide clear reporting and recommendations Work in accordance with Thales processes and practices, and contribute to their improvement You will also improve the Safety culture within AMS in Singapore by developing, sharing and/or improving safety training material, delivering training as required and pro-active behaviour. Knowledge, Skills & Experience SKILLS & ABILITIES Experience in the Systems Safety Engineering process in a safety critical industry such a Defence, Land Domain, Manufacturing, Vehicles, Railway, Aerospace, Nuclear or Oil & Gas Demonstrated experience applying industry best practice system safety analysis and operational risk management techniques and methodologies Proven track record of successfully leading the execution of system safety programs Familiarity with Eurocontrol Safety Assessment Methodology and its system safety engineering processes including core system safety analysis techniques: FHA, PHA, PSSA, SSA, ETA, FTA, HAZOP, FMECA, RAM, etc. Experience and understanding of the V-cycle and how/when the safety engineering activities are interfaced with Knowledge of international standards of the safety domain: ARP 4761/4754, DO-278A/178C, ED-153 Excellent problem solving and decision-making abilities, great and positive attitude, ability to learn Adapt easily to change to work in an agile system engineering environment to understand a problem and provide optimal solution options in terms of size, scale and complexity Able to travel to Melbourne, Australia (a few weeks a year). EXPERIENCE Minimum 10 years’ experience in a similar or adjacent role Familiar with management and engineering tools such as DOORS, Polarion, JIRA and FTA tool Experienced in top-down (abstract ideation) and bottom-up (detailed implementation) approaches in engineering solutions and can work with colleagues with these views Knows the structure of a software and be able to apply safety techniques Team player: harmonising, influencing, negotiating, seeking feedback and mentoring / coaching Self-driven and highly motivated, passionate about systems safety engineering and continual process improvement to achieve optimal outcomes for all stakeholders Keen to grow product and process knowledge over time, to enhance your capabilities as a System Safety Engineer within the given environment of practice Knowledge of ‘design-to-cost’ approach means and can quickly preform a cost-benefit analysis to different methodologies before executing a system engineering task QUALIFICATIONS Engineering or Computer Science degree System Safety degree DESIRABLE Understand and application of RAMS techniques such as RBD, life data analysis, MTTF, MTBF, MTTR, FMECA Knowledge of transverse engineering disciplines: human factor and cyber-security and their links with safety engineering Experience in the development of software products and projects in a variety of methodologies, with a particular focus on iterative/agile development Conduct independent safety assurance activities including auditi…