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Steamlined
Certification.

Streamline your certification process

Model-based Certification

Intelligent application of ARP4761 & ARP4754

The PHM MADe Platform is a model-based RAMS tool that uses a dynamic Digital Risk Twin (DRT) to identify the functions and failures of a complex, safety & mission critical system in a hierarchical logical model.

A model-based approach in aerospace engineering has the advantage of significantly reducing risk, optimising RAMS along with the reduction of RAMS costs.

A top down & bottom up system engineering approach MADe can streamline the ARP certification process for aerospace & OEM manufacturers.

How does it work?
Click to expand

Some MADe platform users

northrop grumman
nasa
us army
spirit aerosystems
lockheed martin
austal
general dynamics land systems
us air force

Smarter Certification Application

Calculate Accurate Reliability

Understand real-world reliability of components and systems.

Manual reliability analyses is limited, the MADe Platform calculates accurate reliability of the system to reduce downtime and maintenance cost  utilising the Digital Risk Twin to simulate and calculate reliability requirement for new components.

 
 

Smarter Design workflow

Instant Design changes and iterations

Multi-user access, track changes and assign confidence using annotations. Create revisions and iterations simply and easily. Improve the way you create trade studies with the the use of model-based simulation and achieve automated generation of analyses for technical validation.

Work from anywhere

Distributed RAMS design environment - WFH

Whether it be the restrictions of pandemics, the desire to work remotely or the a design team located around the globe. The MADe Platform enables all RAMS departments to work in cohesion on a single model . MADe can ensure the continuity of your project with its remote working architecture, reducing project uncertainty and minimising project downtime.

 
ImageDigital Risk Twin
ImageAutomated Analyses

Simulate every failure

The MADe Platform uses a Digital Risk Twin (DRT) to simulate every possible failure based on the physics of failure and generate complete analyses for Reliability, Availability, Maintainability and Safety taking into consideration factors in real world scenarios including Environmental Impact, Mission profiles and Operation modes.

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Failure Diagram ImageFailure Diagram
Operating Environment ImageOperating Environment
Fault Tree Analyses ImageFault Tree Analyses
FMEA/FMECA ImageFMEA/FMECA
Sensor Set Analyses ImageSensor Set Analyses

MADe Modules and Analyses

MADe platform generates analyses based on the simulated Digital Risk Twin (DRT).

MADe Platform

The system, how it interacts (Automated Dependency Mapping) and its operating context  (Mission Profile Definition and Environment), functional capabilities (Functional Diagram),and failures (Failure Diagram) are represented within the MADe Platform module.

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MADe Safety and Risk Assessment (SRA) Image

MADe Safety and Risk Assessment (SRA)

The SRA module allows the generation of a series of processes and analytical outputs addressing risk from a variety of viewpoints whilst maintaining the coherent framework of data as developed and coordinated in the MADe model.

MADe Reliability, Availability, and Maintainability (RAM)

MADe Reliability, Availability & Maintainability (RAM) module is used to assess when failures in a system are expected to occur, how best to mitigate their risk, and how this will impact system cost, safety and availability.

MADe Reliability, Availability, and Maintainability (RAM) Image
MADe Prognostics and Health Management (PHM) Image

MADe Prognostics and Health Management (PHM)

The PHM module is used to design/validate the diagnostic requirements for Condition Based Maintenance (CBM) of complex systems in an integrated analysis solution.

MADe PHM outputs an optimal set of sensor locations, a set of physical sensor hardware decisions, and diagnostic rules describing how those sensors will be utilized in operation.

PHM is the complete Design 4.x solution

With the complete PHM Technology ecosystem your team has the power to consider Reliability, Accessibility and Maintenance in the design phase of any complex engineering systems. This approach improves the reliability of an asset and optimises the maintenance requirement, reducing the operational cost significantly.

The digitization process of the Digital Risk Twin captures the RAMs project knowledge and integrates this into an autonomous FRACAS moving your organisational towards a true industry 4.x outcome.  Unveil our full ecosystem components and how they fit into your industry 4.x future. Click and start your journey.

MADE Platform
Model-based design tool for RAMS
MODE Platform
Model-based maintenance optimization tool
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Click to explore

Read how NASA implements Model-based RAMS

Topic: Reliability Analysis of complex NASA Systems with Model-Based Engineering

Download Whitepaper

We’ve streamlined the process

The MADE Workflow helps guide you through the process for generating certification artefacts.

Producing the required Certification artefacts is less complex with the MADE platform workflow. MADE takes you through a verified workflow that guides you in the development of the necessary artefacts that assist in certifying your aircraft at every step of your design process. We’ll meet all the necessary requirements to streamline certification for your aircraft. From the initial design through to design revisions MADE streamlines the process. That means less time, less resources and reduced cost.

Own your sustainment baseline with the MADE Platform.

Functional Hazard Assessment (FHA)

Assignment of all relevant Mission Profiles & Environmental elements, including special conditions.
Identify Mission Profile & EnvironmentsMORE
Input or import functions required for the system, including external functions.
Develop FunctionsMORE
Input Failure conditions or hazards related to the key function.
Identify Failure Conditions/ HazardsMORE

Preliminary System Safety Assessment (PSSA)

Calculate / allocate the required reliability to system hardware using analyses (Reliability Allocation / Fault Tree).
Perform Budgeting To Developed ArchitectureMORE
Construct a model to map the logical flows.
Develop Logical ModelMORE
Assign the required level of critically to failure modes or failure conditions.
Allocate Functions/ Failure Conditions To LogicMORE

System Safety Assessment (SSA)

Documentation and verification of allocated reliability.
Derive Safety Requirements & Detailed ModelsMORE
Specify and conduct required analyses to address the failure condition: Analysis, Inspection, Test or Demonstration.
Conduct AnalysesMORE

Aerospace Certification Artefacts

MADE platform automatically produces the required artefacts/reports for certification.

  • FMEA/FMECA
  • RA
  • RBD
  • RCM
  • CMA
  • FHA
  • Maintenance Action Reports

Learn about the PHM Ecosystem

Contact us for a Demonstration Today!

Company email address only (i.e no Gmail / Hotmail etc) Company email address only (i.e no Gmail / Hotmail etc)
northrop grumman
nasa
us army
spirit aerosystems
lockheed martin
austal
general dynamics land systems
us air force

Get more info on
Model-Based RAMS

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ARP Certification Download
Brochure
MADe Platform Download
Whitepaper
NASA Download