Intelligent Cockpit Dynamic Simulation System Leads Innovation in User Experience
Development Background of Intelligent Cockpits
With the accelerated advancement of the "New Four Modernizations" in the automotive industry (electrification, networking, intelligence, and sharing), intelligent cockpits have become a key competitive element. Amidst the wave of transformation in the automotive sector, user demand for intelligent cockpits is growing increasingly. As a crucial part of creating the "third living space," intelligent cockpits enhance user experience through multimodal interaction design, gradually becoming a significant consideration for users when purchasing vehicles.
Against the backdrop of intensifying homogeneous competition in the automotive market, multimodal interaction design has emerged as a core element of differentiated product design, receiving high attention from automakers. Currently, intelligent cockpits are evolving toward scenario-based design. By integrating multiple scenarios and designing intelligent experiences, they achieve seamless switching between scenarios to precisely meet user needs. This requires intelligent cockpit design to not only focus on the implementation of individual functions but also emphasize the integration of functions and the enhancement of overall experience.
As virtual interaction verification technology under static conditions continues to improve, the demand for virtual verification under dynamic conditions has become increasingly prominent. With advanced driving simulation software, users can interact in real time with HMI (Human-Machine Interface) design outcomes, evaluating the convenience, friendliness of control interfaces, and clarity of information presentation. By integrating software and hardware protocols, users can simulate multimodal interaction logic under various scenarios and events, ensuring the optimization and enhancement of user experience.
Dynamic Simulation Driving System
System Composition and Functions
In response to the above demands, Heyuan Technology has meticulously developed an intelligent cockpit dynamic simulation driving system. This system integrates advanced equipment such as the SCANeR Studio virtual simulation platform, flexible test bench, optical tracking devices, 3D glasses, eye trackers, XR headsets, and ECG/EDA/EMG devices, providing users with a comprehensive and immersive dynamic driving simulation experience.
-
SCANeR StudioThe SCANeR virtual simulation platform offers comprehensive functions such as vehicle dynamics simulation, traffic scenario simulation, and sensor simulation, laying the foundational environment and various event scenarios for driving simulation.
-
Flexible Test Bench and Optical Capture DevicesThe flexible test bench features flexibly adjustable human-machine hardpoint positions. Combined with a 6-degree-of-freedom motion chassis, it works in synergy with the SCANeR platform to enhance the realism of simulated driving. Optical capture devices can accurately capture every movement of the driver, drive real-time interaction with virtual humans, and generate relevant data for regulatory reports.
-
3D Stereo Display and 3D GlassesThe 3D stereo display utilizes cutting-edge stereoscopic display technology to enhance scene perception and immersive experience, presenting highly realistic virtual driving scenarios. Meanwhile, 3D glasses enable drivers to more clearly perceive the depth and three-dimensionality of virtual driving scenes.
-
Eye Trackers and XR HeadsetsEye trackers provide gaze point analysis by tracking the driver’s eye movements, offering data support for design optimization. XR headsets create realistic virtual driving environments through virtual reality (VR) and mixed reality (MR) functions, enhancing the authenticity of simulated driving.
-
Physiological Information Collection, Analysis, and ApplicationThe system’s physiological information collection and analysis focus on tracking the driver’s physiological data, providing detailed real-time physiological parameters to support driving state monitoring.
System Advantages and Applications
The system’s flexibility and high customizability enable it to meet various testing needs. It not only supports the simulation of diverse cockpit scenarios but also provides detailed testing environments, thereby offering automotive manufacturers and research institutions possibilities for diversified applications.
-
Flexibility and High CustomizationThe system’s high customizability allows it to easily adapt to various testing requirements, providing detailed support for both cockpit layouts and interaction interface designs.
-
Integration of Forward-Looking Technologies and Their ImpactThe integration of forward-looking technologies makes this dynamic simulation driving system a valuable tool for automotive manufacturers. The introduction of real-time feedback mechanisms has significantly improved the user experience of intelligent cockpit designs, setting new industry standards and efficiency benchmarks. Designers can observe drivers’ interaction behaviors in various scenarios in real time, thereby gaining in-depth insights into user experience and further optimizing intelligent cockpit interfaces and interaction methods. These innovations not only enhance comfort and operational convenience during driving but also provide manufacturers with more intelligent and personalized solutions, driving overall progress in the field of intelligent cockpits.
Previous:Opportunities and Challenges Coexist | When Technology Merges with Driving Schools: Transformation and Upgrading of the Driving Training Industry
Next:Simulated Driving Cockpits: Intelligent Innovation and Future Outlook of the Driving Training Industry
Related News
-
Intelligent Cockpit Dynamic Simulation System Leads Innovation in User ExperienceView Details -
Opportunities and Challenges Coexist | When Technology Merges with Driving Schools: Transformation and Upgrading of the Driving Training IndustryView Details -
Comprehensive Analysis of Market Prospects for Remote Control Cabins and Simulation SystemsView Details