Integrated Logistics Support

Objectives
This SLI course is divided into three parts, one of which introduces the concepts of system analysis and the support system. The second part deals with Logistic Support Analysis (LSA) and Integrated Logistic Support (ILS). The final section presents tools for evaluating support, from Reliability, Maintainability and Availability (RMA) calculations to inventory calculations. Three graded practical exercises complete the course and require a greater investment from students.
Skills acquired

Acquire a synthetic vision of the logistics of large systems, particularly in the aeronautical industry
Know how to use tools and methods to design and evaluate a support system

Skills being acquired

Integrate financial, legal and contractual aspects into engineering practice


Skills acquired at master's level

Design, plan, implement and improve maintenance programs for civil aircraft and associated equipment, including involvement in the engineering phases (preventive and predictive maintenance), in an international regulatory context
Integrate into a professional environment in France or abroad Communicate orally and in writing in English
Communicate and work as part of a team Manage and lead a work unit or project group
Anticipate, make decisions in situations of uncertainty Be results-oriented (costs, deadlines, quality) and customer-oriented


Skills acquired at independent mastery level

Use international aeronautical documentation
Manage and lead multidisciplinary technical teams (production (specialties : mechanics, avionics, structures and cabins), supply chain, airworthiness management, quality, technical support)

AP8MOSLI

Contents

Logistics management: this first part introduces the system approach, the support system and its components
Support design: this second part introduces Logistics Support Analysis, Integrated Logistics Support and Life Cycle Cost
The last part introduces FMD (Reliability, Maintainability, Availability) and inventory calculations

These three parts of the course will be applied to 3 classroom case studies and one independent case study:

Case study 1, Life Cycle Cost calculation
Case study 2, Reliability, Maintainability and Availability calculation
Case study 3, Inventory calculation for the implementation of an initial spare stock
Case study in autonomy, Needs analysis of a system

Teaching method of acquisition
This teaching will be given in the form of integrated courses with applications on case studies in order to illustrate the principles developed. The course will be made available online on the Moodle digital platform.

Maintenance, Repair, Overhaul