Certificate Course in Railway RAMS, System Engineering, & Assurance
This course explains the concepts of System Engineering, RAM & Safety and assurance in detail and enables the participants to apply this knowledge within the railway projects and learn the various methods and tools for determination of the RAM and Safety targets, and their Demonstration. They will also be able to appreciate how these techniques make a significant impact in the quality of the railway systems delivered, and its operational life.
Duration of this course is 56 hours. It covers the principles, theory and examples of the concepts of System Engineering, RAM assurance and Safety Engineering.
Course is pre-recorded.Learn at your own schedule within 6 months of activation
Since application of System engineering and RAMS concepts gained considerable importance in the railways, it is essential that a discipline engineer in design, testing, operations, maintenance has a good understanding of these concepts. During design development early identification of RAMS risks in the project life cycle enables easier mitigations at reduced costs. Early identification of risks is made possible by the application of RAMS techniques at the required rigour to the developing design at various stages of the project life cycle.
The course is designed for people of the following profiles:
- Engineering professionals who are directly involved in the activities responsible for design, construction, operation, maintenance and RAMS assurance, where there is a requirement to achieve a robust railway system at an optimum cost.
- Students who are doing post-graduate study in railway engineering related disciplines.
- Professionals pursuing Continued Professional Development (CPD) to advance skills in aspects of RAMS and System Engineering and Assurance. These professionals can take one or more of the three independent modules that comprise this course, viz (i) System Engineering and System Assurance, (ii) Reliability, Availability and Maintainability (RAM) Engineering and (iii) Safety Engineering
Overall, the participants will be able to appreciate how System Engineering, RAMS and Assurance techniques make a significant impact on the quality of the railway systems delivered, and its operational life.
- On successful completion of Module A, Detailed system engineering concepts, the participants will have a good understanding of system engineering principles, its application to sophisticated systems such as signalling and telecom systems in the railways, and value addition by System engineering to the operational life of the delivered railway systems. Further, the participants will have a good understanding of Project life cycle stages, System integration, Verification and validation and an overall knowledge of system engineering specialist disciplines namely System Safety, RAM, EMC and Human factors.
- On successful completion of Module B, Detailed system safety concepts, the participants will have an in depth understanding of system safety concepts, various methods of identifying and mitigating hazards, safety issues during the project life-cycle stages and how to implement international standards & directives EN50126/8/9 Common Safety Methods. Specifically, this module covers application of EN50129 the specific standard for safety-critical signalling and telecoms projects.
- On successful completion of Module C, Detailed RAM engineering concepts module, the participants will have an in-depth understanding of RAM concepts including the mathematics required for RAM, and how to implement EN50126 process. The participants will also gain a good understanding of RAM modelling, FRACAS and value engineering.
- On successful completion of Module D, System Assurance module, the participants will have a good understanding of establishing appropriate system assurance framework and methods which will deliver value for money. Also, participants will be motivated to develop correct system assurance attitude and qualities so that they perform in a professional and constructive manner within project teams, delivering safety critical systems through a robust assurance framework.