UAV Design Internship Syllabus -1 Months
UAV Design Basic Theory
- Overview of UAV types, applications, and industry trends
- Introduction to aerospace engineering principles relevant to UAV design
- Safety protocols and regulations for UAV operations
- Basic principles of aerodynamics for UAVs
- Forces and moments acting on UAVs
- Wing and airfoil design considerations
- Types of UAV propulsion systems (electric, combustion, hybrid)
- Selection criteria for UAV propulsion systems
- Power management and efficiency considerations
- Structural design considerations for UAVs
- Material selection and properties for UAV structures
- Structural analysis and optimization techniques
- Introduction to UAV avionics systems (sensors, GPS, communication)
- Principles of UAV control systems and flight stability
- Basics of autopilot systems and flight control algorithms
- Navigation systems for UAVs (GPS, inertial sensors)
- Guidance and trajectory planning for UAV missions
- Control strategies for UAV flight stability and maneuverability
- Types of payloads and sensors used in UAVs (EO/IR, LiDAR, etc.)
- Integration considerations and payload weight distribution
- Data acquisition and processing techniques for UAV payloads
SolidWorks Software Training
- Overview of SolidWorks interface and workspace
- Understanding the SolidWorks environment (menus, toolbars, feature manager, etc.)
- Creating sketches: lines, circles, arcs, rectangles, etc.
- Applying constraints and dimensions
- Using sketch tools: trim, extend, mirror, offset, etc
- Extruding, revolving, sweeping sketches to create 3D features
- Adding fillets, chamfers, and other features
- Using reference geometry: planes, axes, and points
- Inserting components into assemblies
- Applying mates: coincident, concentric, distance, angle, etc.
- Exploding and collapsing assemblies
- Creating 2D drawings from 3D models
- Adding dimensions, annotations, and views (orthographic, isometric, section views)
- Generating bill of materials (BOM) and other annotations
- Advanced features: sweeps, lofts, patterns
- Configurations and design tables
- Sheet metal design basics
UAV Design Internship Syllabus -3 Months
UAV Design Basic Theory
- Overview of UAV types, applications, and industry trends
- Introduction to aerospace engineering principles relevant to UAV design
- Safety protocols and regulations for UAV operations
- Basic principles of aerodynamics for UAVs
- Forces and moments acting on UAVs
- Wing and airfoil design considerations
- Types of UAV propulsion systems (electric, combustion, hybrid)
- Selection criteria for UAV propulsion systems
- Power management and efficiency considerations
- Structural design considerations for UAVs
- Material selection and properties for UAV structures
- Structural analysis and optimization techniques
- Introduction to UAV avionics systems (sensors, GPS, communication)
- Principles of UAV control systems and flight stability
- Basics of autopilot systems and flight control algorithms
- Navigation systems for UAVs (GPS, inertial sensors)
- Guidance and trajectory planning for UAV missions
- Control strategies for UAV flight stability and maneuverability
- Types of payloads and sensors used in UAVs (EO/IR, LiDAR, etc.)
- Integration considerations and payload weight distribution
- Data acquisition and processing techniques for UAV payloads
- Project planning and management for UAV design projects
- Team collaboration and communication skills
- Risk management and mitigation strategies in UAV projects
- Design optimization techniques for UAV performance enhancement
- Prototyping and testing methodologies
- UAV performance evaluation and validation
- Application of learned concepts in a hands-on UAV design project
- Project scope, timeline, and deliverables
- Regular progress reviews and feedback sessions
- Final presentation of UAV design project
- Evaluation based on project outcomes, presentation skills, and overall performance
- Reflection on internship experience and future learning goals
SolidWorks Software Training
- Overview of SolidWorks interface and workspace
- Understanding the SolidWorks environment (menus, toolbars, feature manager, etc.)
- Creating sketches: lines, circles, arcs, rectangles, etc.
- Applying constraints and dimensions
- Using sketch tools: trim, extend, mirror, offset, etc
- Extruding, revolving, sweeping sketches to create 3D features
- Adding fillets, chamfers, and other features
- Using reference geometry: planes, axes, and points
- Inserting components into assemblies
- Applying mates: coincident, concentric, distance, angle, etc.
- Exploding and collapsing assemblies
- Creating 2D drawings from 3D models
- Adding dimensions, annotations, and views (orthographic, isometric, section views)
- Generating bill of materials (BOM) and other annotations
- Advanced features: sweeps, lofts, patterns
- Configurations and design tables
- Sheet metal design basics
- Creating and editing surfaces
- Using surface tools: knit, fill, trim, extend
- Top-down design approaches
- Assembly features: smart components, sub-assemblies
- Customizing drawing templates and sheet formats
- Using annotations: balloons, notes, symbols
- GD&T (Geometric Dimensioning and Tolerancing)
- Introduction to SolidWorks Simulation (FEA)
- Basic analysis: stress analysis, thermal analysis
- Interpreting simulation results
Need to submit
Yes
Yes
Yes
Need to Submit
Performance Based
