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About
Context
Syllabus
Installation guide
Classes
1. Concept of Operations and architectures
1.1. Concept of Operations
1.5. System architectures
2. Components, technologies, design drivers and sizing scenarios
2.1. Components and Technologies for Mechatronic System
3. Estimation models
3.1. Linear regressions
3.2. Quiz
3.3. Scaling laws
3.4. Quiz
4. Simulation and evaluation models
4.1. Simulation models
4.2. Evaluation models
4.3. Quiz
4.5. Homework: mission profile analysis
5. Optimal sizing procedures
5.1. Representation of a design problem and basics optimal design
5.2. Optimization with python
5.3. Development of a sizing procedure using design graphs
5.4. Design graph and optimization with python
Laboratories
Package delivery UAV
Package Delivery UAV Concept of Operations
Package Delivery UAV Concept of Operations (Student version)
System architectures of the Package Delivery UAV (Student version)
System Architecture Selection for a Package Delivery UAV
Sizing scenarios and design drivers (student version)
Estimation models with dimensional analysis and linear regressions (student version)
Estimation models with scaling laws
VEGA Launcher TVC EMA
Modeling of the mechanical load (student version)
Modeling of the mechanical load
Estimation models with scaling laws and linear regression (student version)
Estimation models with scaling laws and linear regression
Simulation models with Python (student version)
Simulation models with Python
Evaluation models: endurance of the actuator (student version)
Evaluation models: endurance of the actuator
Sizing procedure and optimization (Student version)
Sizing procedure and optimization
Sizing procedure and optimization with OpenMDAO (Student version)
Sizing procedure and optimization with OpenMDAO
Lab - Sustainable mobility - Mission profile & Specification
Sustainable mobilities
Case study presentation
Case study specification (Student version)
Case study specification
Architecture of the converter and sizing scenarios (Student version)
Architecture of the converter and sizing scenarios
Hydrid Storage Architecture and Specification
Lab - Sustainable mobility - DC/DC converter sizing
Equations of sizing scenarios
Estimation models with scaling laws and linear regression (Student version)
Estimation models with scaling laws and linear regression
Heatsink estimation models with simple and multiple linear regressions (Student version)
Heatsink estimation models with simple and multiple linear regressions
Sizing code of an inductor
Sizing code of an inductor with surrogate models (Student version)
Sizing code of an inductor with surrogate models
Design graphs for the sizing a DC/DC converter
Sizing code of a DC/DC converter
Life Cycle Assessment of an inductor (student version)
Life Cycle Assessment of an inductor
Repository
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Components, technologies, design drivers and sizing scenarios - Summary
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Components, technologies, design drivers and sizing scenarios - Summary
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