US20250182413
2025-06-05
Physics
G06T19/006
The patent outlines a system for an augmented reality (AR) viewer designed to provide immersive experiences by integrating virtual objects into the user's real-world environment. This system leverages advanced computing technologies and wearable devices to create a seamless interface where digital and physical worlds interact. The primary focus is on enhancing user perception through various sensory inputs and outputs, including visual and auditory elements.
Key components of the AR viewer include sensors, storage devices, processors, and display modules. Sensors, such as cameras, are crucial for detecting real-world objects' locations, which helps in positioning virtual objects accurately. A processor executes display modules to render these virtual objects relative to real-world items. The system also includes a light generator to project these renderings visibly to the user, creating a cohesive augmented reality experience.
The viewer supports interactive features through nomadic life objects that can move relative to real-world objects based on user actions. Sensors detect gestures like wave movements, allowing the virtual objects to respond dynamically. Additional functionalities include a retrieval agent for accessing external information and a transmission agent for executing user instructions, which can be directed at Internet of Things (IoT) devices or other resources.
Incorporating artificial intelligence, the viewer can learn from user interactions, associating specific actions with routines that enhance the virtual experience. Eye-tracking technology further refines interaction by adjusting virtual object movements based on the user's gaze direction. This intelligent system adapts over time, providing more personalized and intuitive AR experiences.
The AR viewer is versatile, supporting various applications from personal entertainment to educational tools. It can simulate aquatic environments with virtual fish that react to hand movements or create complex visualizations on surfaces like walls or ceilings. This adaptability makes it suitable for diverse environments, offering users rich augmented reality experiences tailored to their interactions and preferences.