DIL solution

Customer Pain Points

High Risk in Extreme Takeover Scenarios

Safety concerns during real-vehicle testing of driver takeovers in extreme conditions

High Training Costs with Difficult Behavior Reproduction

Expensive driver training with challenges in consistently replicating specific driving behavior patterns

Difficult Validation of HMI Designs

Limited effectiveness of pure software simulation in fully evaluating human-machine interaction designs for intelligent cockpits

Challenges in Simulating Complex Scenario Coordination

Difficulty in effectively modeling human-system coordination mechanisms for complex scenarios like congestion and sudden accidents

Solution Value

High-Immersion Simulation

Utilizes multi-DOF motion platforms, LED panoramic display systems, and realistic cockpit components to recreate physical sensations like acceleration, braking, and steering, significantly enhancing driving immersion.

High Scenario Controllability

Supports customizable weather (rain/snow/fog), traffic flow (vehicle density, pedestrian behavior), and road types (highway/urban/rural), enabling accurate reproduction of real driving scenarios.

Human-Machine Interaction Validation

Integrates eye trackers and motion capture devices to analyze driver attention distribution on HMI interfaces and operational response times, facilitating interaction design optimization.

Safe and Cost-Effective

Eliminates real-vehicle testing risks, reduces testing costs, and supports continuous testing operations.

Application Scenarios

HMI/HUD/Voice Interaction Usability Testing

Conduct A/B testing in real cockpits for menu hierarchy, prompt prioritization, voice commands, and touch/knob controls to validate discoverability, misoperation rates, and learning curves.

ADAS Function Experience and Human-Machine Coordination

Evaluate human-system coordination for ACC/AEB/LKA/ALC/NOA/APA functions across roads (highway/urban/ramp/inter-ramp) and traffic flows, assessing car-following stability, lane-change acceptance, parking usability, and takeover/abort behaviors.

Traffic Infrastructure Design Review (Usability Validation)

Assess visibility, comprehensibility, and operability of virtual road elements: lane markings, signs, signal timing, channelizing lines, cones/guardrails, and speed limit/merge-divide designs.

Driver Status and Workload Monitoring (DMS/HOD)

Quantify impacts of distraction, fatigue, gaze shifts, and hands-off-wheel states on system takeovers and functional boundaries using eye-tracking/motion-capture/hands-on-detection data.

Training & Assessment/Scenario Drills

Replace high-risk/cost real-vehicle training with continuous drills and evaluations for extreme/rare scenarios, enhancing safety awareness and skill development.

Cases

Multi-Vehicle Interaction Hardware-in-the-Loop Simulation at Shanghai Motor Vehicle Inspection Center

DIL-based Intelligent Cockpit Design for an American Automaker