The advent of automated driving technologies has brought forth new possibilities for smart mobility, paving the way for a harmonious integration of humans and machines. This presentation focuses on the pivotal role of internal and external sensing systems in automated driving automobiles, and their influence on user experience (UX) features.
We will explore internal sensing technologies, such as driver monitoring systems and biometric sensors, which enable the vehicle to perceive and understand the occupants' physical and cognitive states. These advancements not only enhance safety by detecting driver fatigue or distraction but also open doors for personalized in-vehicle experiences and adaptive functionalities.
The presentation will also touch on external sensing, encompassing sensor technologies like cameras, LIDAR, and radar, which enable vehicles to perceive and interpret the surrounding environment. By analyzing real-time data from the surroundings, automated driving systems can accurately detect objects, pedestrians, and road conditions, leading to improved navigation, collision avoidance, and overall safety.
The integration of internal and external sensing systems brings forth a range of UX features in automated driving automobiles. These features not only enhance convenience and comfort but also prioritize safety and promote trust between humans and machines.
The session will attempt to address the challenges and considerations related to UX design in automated driving. Participants will gain insights into designing intuitive and user-friendly interfaces that foster a seamless and enjoyable experience for passengers in automated vehicles.
In summary, "Smart Mobility: Uniting Man and Machine" sheds light on the significance of internal and external sensing systems in automated driving automobiles. By harnessing the power of these technologies, vehicles can perceive and respond to their environment, enabling a range of UX features that prioritize safety, comfort, and personalization. Attendees will leave with a deeper understanding of the latest advancements in smart mobility and the transformative potential of human-machine integration.
