Automated Valet Parking (AVP) testing evaluates the functionality, reliability, and safety of a vehicle’s autonomous parking capabilities in controlled and real-world conditions. The process ensures that AVP systems meet technical, regulatory, and user expectations for seamless operation in diverse environments.
Key Objectives of AVP Testing
- Safety Validation: Ensures the system can park and retrieve the vehicle without causing collisions or endangering pedestrians.
- Accuracy: Verifies that the vehicle can navigate parking facilities and park in designated spots.
- Reliability: Tests consistent performance under varying conditions such as low lighting, tight spaces, or crowded lots.
- Infrastructure Integration: Confirms compatibility with parking facility technology, including sensors, cameras, and communication systems.
Components Tested in AVP Systems
- Sensor Performance: Radar, cameras, ultrasonics, and LiDAR are tested for obstacle detection, precision, and robustness in identifying other vehicles, pedestrians, and infrastructure elements.
- Vehicle-to-Infrastructure Communication (V2I): Ensures smooth communication between the car and smart parking systems to coordinate navigation and parking.
- Autonomous Navigation: Validates the system’s ability to:
- Follow pre-mapped routes.
- Avoid obstacles dynamically.
- Adapt to unexpected situations (e.g., other moving cars, humans crossing).
- Parking Space Detection: Assesses the vehicle’s ability to locate and identify an appropriate parking spot, even in tight or irregular layouts.
- Pick-Up Process: Tests the system’s ability to navigate back to the designated pick-up point efficiently when summoned.
Testing Scenarios
- Static Environment Testing: Conducted in controlled parking facilities to simulate basic scenarios like empty lots, standard spaces, and predefined routes.
- Dynamic Environment Testing: Introduces moving elements like pedestrians, bicycles, or other vehicles to assess obstacle avoidance and decision-making.
- Complex Parking Structures: Evaluates performance in multi-level garages, angled spaces, or areas with narrow lanes and sharp turns.
- Edge Cases: Scenarios include:
- Malfunctioning infrastructure components (e.g., broken sensors).
- Unexpected changes like a parked vehicle blocking the route.
- Poor environmental conditions (e.g., low light, rain, reflective surfaces).
Test Tools and Methods
- Simulation Platforms: Digital environments recreate real-world scenarios to test AVP systems without physical risk.
- Physical Test Tracks: Dedicated parking lots with programmable obstacles and lighting variations for real-world testing.
- Connected Infrastructure Testing: Evaluates compatibility and communication with smart parking systems using V2I protocols.
- Data Logging and Analysis: Captures vehicle behavior, sensor data, and decision-making to refine algorithms.