Reviews technical specifications, estimates costs and schedules, plans their own work and that of others, initiates and leads engineering design programs
Designs engineering systems and complex interfaces, gathers and analyses complicated technical data, solves system level design problems, performs system trade-off and coordination studies, creates novel design alternatives, develops reliability, safety and maintainability approaches, and decides on optimum design approach
Tests, demonstrates and documents system level designs, develops test procedures, leads design reviews internally and with customers
Perform thorough analysis of the stakeholder requirements and interaction with the wider systems engineering teams, supplier and end customers
Ensure the performance, safety, and reliability of our products, making a lasting impact on global mobility. Day-to-day, you'll work closely with teams across the business (engineering design, validation, project management), coordinate RAMS contributors, and engage with external stakeholders such as suppliers and independent safety authorities
Take care of managing RAMS activities and deliverables, also support the improvement of RAMS processes and product performance
Planning and piloting RAMS activities and deliverables for projects and programs
Assessing and demonstrating product safety and reliability performance
Collaborating with cross-functional teams to define and implement safety and reliability measures
Managing interfaces with independent safety authorities and external stakeholders
Work Experience
Previous experience in Mechanical, Electrical, power supply systems (working with System Integration). Knowledge of pneumatic control systems, Pantograph, shoe gear and high voltage systems and components would be a plus.
Knowledge of systems engineering and development, functional integration, methods and tools. A good knowledge of product development processes and contribution to best practices is also highly desirable.
Commercial awareness and capability to deliver cost optimal solutions.
Ability to provide cost and schedule estimates on complicated engineering programs.
Excellent communication, presentation and negotiation skills
Experience or understanding of railway safety analysis and RAM prediction methods
Knowledge of RAMS processes and tools/ methods (FMEA, FTA, MTBF prediction).
Knowledge of key standards (EN 50126, EN 50128, EN 50129, ISO 26262).
Familiarity with validation and integration of railway products
A proactive and structured approach to problem-solving
Strong communication and interpersonal skills
English proficiency for technical discussions and reporting
Qualification: Bachelors or masters engineering degree in Electrical, Electro-mechanical, or Rolling Stock Engineering
