Chaque module vaut 3 ECTS. Vous sélectionnez 10 modules/30 ECTS parmi les catégories suivantes:
- 12-15 crédits ECTS en Modules technico-scientifiques (TSM)
Les modules TSM vous transmettent une compétence technique spécifique à votre orientation et complètent les modules de spécialisation décentralisés. - 9-12 crédits ECTS en Bases théoriques élargies (FTP)
Les modules FTP traitent de bases théoriques telles que les mathématiques élevées, la physique, la théorie de l’information, la chimie, etc., vous permettant d’étendre votre profondeur scientifique abstraite et de contribuer à créer le lien important entre l’abstraction et l’application dans le domaine de l’innovation. - 6-9 crédits ECTS en Modules contextuels (CM)
Les modules CM vous transmettent des compétences supplémentaires dans des domaines tels que la gestion des technologies, la gestion d’entreprise, la communication, la gestion de projets, le droit des brevets et des contrats, etc.
Le descriptif de module (download pdf) contient le détail des langues pour chaque module selon les catégories suivantes:
- leçons
- documentation
- examen
Safety-critical systems are those systems whose failure could result in loss of life. An aircraft such as an airliner has more than one safety critical systems.
The engineering activities required to design and manage these complex systems over their life cycles require a deep understanding of several disciplines and a systematic approach to problems such as:
- Requirements engineering
- Requirement based testing
- Validation and verification of complex function
- Managing human factors and teams
In this module the students will have an overview of Safety Critical Systems and related engineering activities and how these actitivties must be planned and executed in order to lead to successful certification and continued airworthiness.
Compétences préalables
The students are expcted to have basic knowledge of aircraft engineering such as:
- Aerodynamics
- Aircaft Structures
- Understanding of Aircraft Systems
- Understanding of Aircraft Propulsion
- Basic concepts of Maintenance
- Safety:
- System Safety
- Safety Process
Objectifs d'apprentissage
Understand core engineering and human-centered disciplines necessary to successful design, development and continued airworthiness of Safety Critical Systems (SCS).
The student are expected to acquire the following competencies:
- Understanding of safety critical system
- Be able to apply system engineering principles
- Understanding of system components qualification
- Understanding of aircraft certification process
- Logic of human behaviour
Contenu des modules
Syllabus:
- Introduction to Safety Critical Systems (SCS): General Concepts, Examples of SCS
- Review of System Engineering Principles
- Requirements: Writing, Verification and Validation, Testing
- Safety Process: SAE-ARP-4761
- Development Assurance Level: SAE-ARP-4754A
- Unmanned Aircraft: Concept of Operations, Holistic Approach/SORA, Integration with Manned Aviation
- Robustness, Redundancy, Dissimilarity and Integrity
- Modeling and Simulation: Introduction
- Modeling and Simulation of SCS
- Testing of SCS
- Human Reliability
- Personality Motivation / Interpersonal Skills
- Stress & Resilience
- Safety Culture & Team Performance
Méthodes d'enseignement et d'apprentissage
- All lectures are strictly connected to current aviation practice and, where feasible, practical examples will be provided
- Real world examples with lessons learned will be provided for self study
Bibliographie
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SAE-ARP-4754A - Guidelines For Development Of Civil Aircraft and Systems
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Aircraft Design - A Systems Engineering Approach M. H. Sadraey, Wiley Aerospace Engineering
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SAE-ARP4761 - Guidelines And Methods For Conducting The Safety Assessment Process On Civil Airborne Systems And Equipment
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DO-178B, Software Considerations in Airborne Systems and Equipment Certification
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