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Reliability and Maintenance Systems.PNG

Mitigate technical engineering based risks that impact performance, operational availability and the cost of maintenance using modelling, analysis and decision support workflows.



MADe is used to enable better decisions about the design and support of safety/mission critical equipment at each stage of the product lifecycle. Reduce risk using interdependent analysis capabilities that consider the technical, operational and economic requirements of the operator and/or maintainer of the system.

Modelling & Analysis
  • Systems Engineering approach to functional modelling of multi-domain systems

  • Concurrent engineering analyses from a single point of truth

  • Consistency of data structures / analysis workflows / reporting outputs

Design Optimization
  • To achieve Operational Availability of 95% what reliability do the subsystems need?

  • How can we conduct safety & reliability analysis concurrently with the design?

  • How much will this design cost to operate and maintain?

Sustainment Optimization
  • What happens to maintenance costs if we increase the operating temp?

  • How can we reduce the maintenance budget for our existing equipment?

Reliability and Maintainability
  • How will this system be used – how does this impact reliability / safety?

  • Where will this system be used – and how will this impact on maintenance costs?

  • What is the optimal maintenance approach?

Safety and Risk Assessment
  • If you don’t identify a risk – how can you identify it? Objective, model-based risk identification.

  • What are the critical risks for this support concept?

  • What are the potential key system degraders of this design configuration?

PHM / CBM design & validation
  • What inherent diagnostic capability does this system have?

  • Does this sensor / suite ‘buy its way onto the platform’?

  • Generate model-based diagnostic rules for fault detection / isolation

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