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This technology uses a camera to identify and track predefined markers or images to overlay digital objects in a specific location.

Spatial audio provides 3D sound experiences in AR by simulating how sound behaves in a real environment, enhancing realism and immersion.

Users can select and interact with virtual objects in AR through eye movement and tracking, creating hands-free interaction experiences.

WebAR refers to augmented reality experiences that run within a web browser, eliminating the need to download a separate app.

Developed by Apple, ARKit is a framework for creating AR experiences for iPhone and iPad, featuring tracking and environment understanding capabilities.

This feature enables collaborative experiences in AR, where multiple users can see and interact with the same digital objects in a shared space.

AR navigation uses real-time overlays on a camera feed to provide directions and information, enhancing traditional GPS systems.

This technology allows AR systems to recognize, track and augment physical objects with additional information or graphics in real time.

AR in retail allows customers to visualize products in a real-world environment before buying, leading to improved customer engagement and satisfaction.

AR is used in education and training to provide interactive 3D models, simulations, and guided instructions for enhanced learning experiences.

AR headsets overlay digital content onto the user's real-world view, allowing for immersive experiences and information display.

SLAM allows AR devices to understand and map the environment while keeping track of their own location within it.

Google's platform for building augmented reality experiences on Android devices, allowing for environmental understanding and motion tracking.

AR in healthcare allows medical professionals to visualize and interact with 3D representations of anatomy for diagnosis, education, and surgical assistance.

An AR cloud is a persistent 3D digital copy of the real world to enable shared AR experiences across multiple users and devices.

Hand tracking technologies allow for gestural interactions with virtual objects in AR, using cameras or sensors to detect hand movements.

This type of AR projects synthetic light onto physical surfaces and can allow interaction by detecting user touch or gestures.

Haptic feedback in AR provides tactile sensations to simulate the feeling of touching virtual objects, enhancing user immersion and experience.

Context-aware AR systems adapt their behavior based on the user's location, time, or activity to provide relevant information and experiences.