Digital Twin of Yeungnam University Campus, South Korea
Establishing a Digital Twin Testbed for Mobility Technology Research
Real World
Digital Twin
Project
Digital Twin of Yeungnam
University Campus
Development of a Digital Twin Map of Yeungnam University Campus and Autonomous Driving Algorithm Scenarios.
Building a Digital Twin Simulation Environment for Testing and Validation of Autonomous Vehicles.
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The Challenge
Cost Issues
Expenses arise from manpower, vehicles, and measurement equipment, with additional costs incurred due to equipment damage or malfunctions during testing.
Safety Concerns
Testing on real roads carries risks such as collisions between test vehicles and regular traffic, as well as malfunctions that could endanger pedestrians and infrastructure.
Time Consumption
Significant time is required for setting up the test environment, modifying conditions, and analyzing results.
Why MORAI Digtal Twin
01
High-Fidelity Digital Twin Environment
Precisely replicates real-world environments, enabling data acquisition and simulation at the same level of accuracy as real-world testing.
02
Flexible and Cost-Effective Sensor Deployment
Expensive sensors can be freely placed and utilized in the virtual environment, reducing overall costs.
03
Extensive Interface Compatibility
Supports various interfaces such as UDP, ROS1, and ROS2, with technical support for seamless algorithm integration.
04
User Scenario-Based Function Analysis and Development
Expert capability in analyzing user scenarios to efficiently plan and develop necessary features.
05
Scenario Editor Support
Provides an add-on feature to easily modify or create scenarios based on the OpenScenario standard using a GUI.
Drive Efficiency with
MORAI Digital Twin
01
Highly Accurate Digital Twin Environment
Accurately replicates real-world environments, providing an optimized simulation environment for validating camera sensor-based algorithms.
02
Operational Environment Simulation
Enables realistic testing by simulating various scenarios, external forces, and interface configurations.
03
Integrated Visualization
Offers a unified visualization of 3D models, sensor data, environmental conditions, and test scenarios to support stable and efficient validation of autonomous driving algorithms.
Use Case
Korean Air Smart MRO Powered by Digital Twin Technology
Digital Twin Simulation Environment for Drone & Ground Robot-Powered Aircraft Maintenance
Digital Twin
Traffic Control System for
Seoul City
MORAI provides a digital twin environment and a traffic monitoring system for the Seoul Metropolitan Government.
Scenario Creation for
ADAS & AD
MORAI provides a variety of simulation scenarios designed to detect edge cases, along with digital twin maps for testing them. This enables users to identify potential hazards that vehicles may encounter and understand system limitations that could arise in various situations.
