sofia-ys/Aircraft-Design
Nov 2024 – Dec 2024
2 Months active
Languages Used
Python
Technical Skills
AerodynamicsAerospace EngineeringData VisualizationEngineeringNumerical AnalysisNumerical Integration
bboekema
PROFILE
Bboekema
Contributed to the sofia-ys/Aircraft-Design repository by developing and enhancing core modules for wing torsion and twist analysis, focusing on single-cell wing box structures. Leveraged Python and scientific computing techniques to implement torsional constant calculations, integrate material properties, and enable visualization of twist and torsional stiffness along the wing span. Refactored and stabilized code to improve maintainability and performance, supporting more accurate aeroelastic predictions and faster design iterations. The work included dynamic wingbox design, improved integration of twist calculations into the aeroelastic workflow, and comprehensive data visualization, facilitating clearer analysis and better structural decisions for aerospace engineering applications.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
17Total
Bugs
0
Commits
17
Features
2
Lines of code
573
Activity Months2
Your Network
38 peopleSame Organization
@student.tudelft.nl29
Work History
December 2024
8 Commits • 1 Features
Dec 1, 2024Month: 2024-12. Focus: Wingbox design and torsional stiffness modeling enhancements in sofia-ys/Aircraft-Design. Delivered a dynamic wingbox design, refactored torsional constant calculations, added visualization of torsional stiffness along the wingspan, and improved twist calculation integration into the aeroelastic workflow. Achieved code stabilization through iterative commits, progressing from initial issues to a robust solution, and reinforcing the project’s ability to analyze wing torsion and twist. Business value includes more accurate aeroelastic predictions, faster design iterations, and clearer visualization for stakeholders.
8 Commits • 1 Features
Dec 1, 2024Month: 2024-12. Focus: Wingbox design and torsional stiffness modeling enhancements in sofia-ys/Aircraft-Design. Delivered a dynamic wingbox design, refactored torsional constant calculations, added visualization of torsional stiffness along the wingspan, and improved twist calculation integration into the aeroelastic workflow. Achieved code stabilization through iterative commits, progressing from initial issues to a robust solution, and reinforcing the project’s ability to analyze wing torsion and twist. Business value includes more accurate aeroelastic predictions, faster design iterations, and clearer visualization for stakeholders.
December 2024
November 2024
9 Commits • 1 Features
Nov 1, 2024November 2024 monthly summary for sofia-ys/Aircraft-Design. Implemented core torsion/twist analysis for a single-cell wing box, establishing a robust torsional_constant module, integrating material properties, and enabling twist visualization across the wing span. The work enhances design accuracy, supports better structural decisions, and accelerates iteration cycles.
November 2024
9 Commits • 1 Features
Nov 1, 2024November 2024 monthly summary for sofia-ys/Aircraft-Design. Implemented core torsion/twist analysis for a single-cell wing box, establishing a robust torsional_constant module, integrating material properties, and enabling twist visualization across the wing span. The work enhances design accuracy, supports better structural decisions, and accelerates iteration cycles.
Activity
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Quality Metrics
Correctness77.6%
Maintainability78.8%
Architecture73.0%
Performance66.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
Python
Technical Skills
AerodynamicsAerospace EngineeringCode CleanupData VisualizationEngineeringFinite Element AnalysisNumerical AnalysisNumerical IntegrationNumerical MethodsPythonPython DevelopmentPython ProgrammingPython ScriptingRefactoringScientific Computing
Repositories Contributed To
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