Advanced Simulation Module Overview
Welcome to the Advanced Simulation Module, where you can fine-tune every aspect of your drone's performance through step-by-step configuration. From choosing the basic drone type to specifying which parts to test, this module offers an intuitive way to run both structural (FEA) and fluid (CFD) analyses.
Guided Simulation Steps
1. Drone Type
Select the overall form factor of your drone:
- Multi Rotor
A versatile choice with multiple propellers for superior stability. - Single Rotor
An efficient single-rotor system for longer flight duration. - Fixed Wing
Aerodynamically optimized for extended range and endurance. - Hybrid VTOL
Combines vertical takeoff with fixed-wing efficiency.
Each choice tailors your simulation framework to the drone’s flight characteristics.
2. Drone Usage
Identify the primary application of your drone:
- Photographic Use
Focused on aerial imaging, mapping, and precision control. - Delivery Purpose
Equipped for payload transport with autonomous navigation. - Military or Specialized
Tactical or reconnaissance capabilities for advanced missions.
The use case affects load factors, mission duration, and potential aerodynamic challenges.
3. Simulation Type
Define which analysis you’d like to run:
- Structural Analysis
Investigate stress distribution, deflection, and overall integrity under various load conditions. - Fluid Dynamics
Evaluate airflow, lift, drag, and other aerodynamics for optimal flight performance.
You can also combine multiple analysis types to form a multi-physics approach (coming soon).
4. Testing Type
Choose the level of testing:
- Component Testing
Focus on a single part—like a propeller or wing—to optimize design details. - Integration Testing
Evaluate the complete system’s performance, from powertrain to control surfaces.
This flexibility allows you to isolate individual components before committing to a full-system analysis.
5. Testing Parts
Finally, decide which parts to analyze:
- Propeller, Wing, or Other Components
Focus on specific hardware to refine shape, material, or aerodynamic features. - Aircraft (Full System)
Run a comprehensive simulation on the entire drone assembly. - Custom Settings
Handpick the parts or subsystems you want to simulate.
After selecting your parts, proceed to set up material properties, boundary conditions, and other parameters.
Key Benefits
-
Modular Workflow
Break down the simulation process into manageable steps—ideal for both novices and experts. -
Precision Control
Each selection narrows down the parameters, ensuring accurate and detailed FEA/CFD results. -
Iterative Design
Quickly run multiple simulation loops by adjusting design variables at each step.
Next Steps
- Begin a Simulation: Head to Getting Started if you need help creating your first project.
- Refine Your Design: For fundamental drone specs, check out the Basic Design Module.
- Troubleshoot & FAQ: See FAQ & Troubleshooting for common issues or errors.
Tip: You can combine Advanced Simulation with our upcoming Regulatory Modules (FAA, EASA) to ensure compliance while optimizing performance.
Ready to Take Off?
Select your drone type, usage, and desired analysis. Watch as EveryDrone’s step-based UI guides you through the entire simulation journey—from component-level fine-tuning to full drone system evaluations.