Modules
System Engineering
Nuclear Safety
Dependability
System Engineering
Overall vision and cross-functional performances
SE 01 - System Thinking
Understand the interest and ROI of a systemic approach
SE 02 - Systems Architecture
Implement a Systemic Design Methodology
SE 03 - Cross-functional performances
Integrate effective cross-functions into the projects
SE 04 - Configuration Management
Preserve functional and technical integrity of a system
SE 05 - Control the requirements
Requirement Engineering
SE 06 - Verification and Validation
Independent Verification and Validation (IVV)
SE 07 – Practice and deploy an MBSE approach
Models such as guidance to conceptualize and elaborate SE files
Business specifications
We apply this approach by integrating business specifications at the request of our customers in the following areas:
- Automotive
- Aeronautics
- Nuclear
- Defense
- Energy
- Networks (water, electricity, waste, smartgrids,…)
Nuclear safety
Overall vision and cross-functional performances
NS 01 - Introduction to Nuclear Safety
Understand the fundamental concepts and organization of Nuclear Safety
NS 02 - Integrated Nuclear Safety© in design
Integrated Nuclear Safety ©, from design to delivery
NS 03 - Integrated Nuclear Safety© in operation
Safety at the heart of the operation of nuclear facilities
NS 04 - Integrated Nuclear Safety© in dismantling
Integrated Nuclear Safety© for the return to grass
NS 05 - Hazard Management
The Integrated Nuclear Safety© approach to control hazards
NS 06 - HOF in design
HOF in a nuclear design project
NS 07 - HOF in operation
HOF in the operation of a nuclear facility
NS 08 - HOF in dismantling
HOF in a nuclear dismantling project
NS 09 – Run and operate nuclear power plants
Understand the French nuclear fleet and how to operate a nuclear power plant
NS 10 - Introduction to radiation protection
Learn the basics of radiation protection, from nuclear physics to application in the field
NS 11 - Basics & Applications of Radiation Protection
Understand radiation protection from nuclear physics to application on the field.
Business specifications
We apply this approach by integrating business specifications upon our customers’ requests in the following fields:
- Civil nuclear (research reactor, laboratory, plant)
- Defense
- Naval
Dependability
Overall vision and cross-functional performance
Management, organization and activity Management
DEPENDABILITY 01 - Introduction
Understand Dependability from a non-technical point of view
RAMS
DEPENDABILITY 02 - Module 01 - RAM Studies
Reliability, Availability and Maintainability to characterize the operational performance of a system
DEPENDABILITY 02 - Module 02 - Dependability
Integrate Dependability in the risk management process of Systems and Facilities
Tools
DEPENDABILITY 03 - Module 01 - Inductive analyses
Bottom-up approach to identify, evaluate and control the risks at any stage of a project
DEPENDABILITY 03 - Module 02 - Deductive analyses
Top-down approach as a complement to inductive analyses of a project
DEPENDABILITY 03 - Module 03 - Intrinsic reliability calculation
Reliability, an essential component of dependability
DEPENDABILITY 03 - Module 04 - Reliability analyses
Evaluate the reliability of a system by studying its architecture
ILS
DEPENDABILITY 04 - Module 01 - Introduction to Integrated Logistics Support Analyses
Extend the Dependability approach by using its results in the ILS domain
DEPENDABILITY 04 - Module 02 - Integrated Logistic Support & Maintenance Cost
Business specifications
We apply this approach by integrating business specifications upon our customers’ requests in the following fields:
- Civil nuclear (research reactor, laboratory, plant)
- Defense
- Naval