sofia-ys/Aircraft-Design
Nov 2024 – Dec 2024
2 Months active
Languages Used
Python
Technical Skills
AerodynamicsAerospace EngineeringAircraft DesignCode DeletionConfiguration ManagementConstants Management
MaximeEveraert-Pham
PROFILE
Maximeeveraert-pham
Maxime Everaert Pham developed foundational aerodynamic and structural analysis features for the sofia-ys/Aircraft-Design repository, focusing on early-stage wing design. He implemented Python scripts to calculate clean-wing aerodynamic properties, such as lift curve slope and stall angle, and established a framework for wing box structural analysis using constants management and numerical methods. His work included refactoring and modularizing code for maintainability, removing obsolete files, and introducing inertia (Ixz) and bending stress analysis modules to support accurate stiffness and stress predictions. By leveraging Python and applying principles of aerospace engineering, Maxime enabled faster design iterations and improved risk management in aircraft design.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
22Total
Bugs
0
Commits
22
Features
4
Lines of code
176
Activity Months2
Your Network
9 people
Work History
December 2024
5 Commits • 2 Features
Dec 1, 2024December 2024 monthly achievements focused on delivering foundational wing structural analysis capabilities in the Aircraft-Design repo, including inertia (Ixz) with the I7 term and a bending stress analysis module. These features support more accurate stiffness and stress predictions, enabling faster design iterations and better risk management. Major bugs fixed: None reported. Overall impact: Enhanced wing structural analysis capabilities, enabling more accurate inertia and bending stress predictions, accelerating design iterations and reducing risk. Technologies/skills demonstrated: Python module development, modular architecture, disciplined commit history.
5 Commits • 2 Features
Dec 1, 2024December 2024 monthly achievements focused on delivering foundational wing structural analysis capabilities in the Aircraft-Design repo, including inertia (Ixz) with the I7 term and a bending stress analysis module. These features support more accurate stiffness and stress predictions, enabling faster design iterations and better risk management. Major bugs fixed: None reported. Overall impact: Enhanced wing structural analysis capabilities, enabling more accurate inertia and bending stress predictions, accelerating design iterations and reducing risk. Technologies/skills demonstrated: Python module development, modular architecture, disciplined commit history.
December 2024
November 2024
17 Commits • 2 Features
Nov 1, 2024November 2024 monthly summary for sofia-ys/Aircraft-Design: Delivered foundational aerodynamic and structural analysis capabilities for wing design. Implemented a Python-based aerodynamic calculations script for clean-wing configurations and established Wing Box/Ixx structural calculation framework with constants, centroids, and refinements. Focused on code quality and maintainability through constants.py and Ixx.py updates, and reduced technical debt by removing obsolete files.
November 2024
17 Commits • 2 Features
Nov 1, 2024November 2024 monthly summary for sofia-ys/Aircraft-Design: Delivered foundational aerodynamic and structural analysis capabilities for wing design. Implemented a Python-based aerodynamic calculations script for clean-wing configurations and established Wing Box/Ixx structural calculation framework with constants, centroids, and refinements. Focused on code quality and maintainability through constants.py and Ixx.py updates, and reduced technical debt by removing obsolete files.
Activity
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Quality Metrics
Correctness78.2%
Maintainability82.8%
Architecture72.6%
Performance67.2%
AI Usage23.6%
Skills & Technologies
Programming Languages
Python
Technical Skills
AerodynamicsAerospaceAerospace EngineeringAircraft DesignCode DeletionConfiguration ManagementConstants ManagementDocumentationEngineeringFile ManagementNumerical AnalysisPythonPython ProgrammingPython ScriptingRefactoring
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