SYSTEM AND COMPONENT ARCHITECTURES FOR AR AND VR DEVICES

Organization Name

Meta Platforms Technologies, LLC

Inventor(s)

Hanqiao Zhang of Sammamish WA (US)

Patrick Codd of Carnation WA (US)

Dongmin Yang of San Jose CA (US)

Yi Zhou of San Jose CA (US)

Yizhi Xiong of Foster City CA (US)

Fei Liu of Los Altos CA (US)

Abhishek Dhanda of San Ramon CA (US)

Michael Okincha of San Jose CA (US)

Linsen Bie of San Francisco CA (US)

Honghong Peng of Los Altos CA (US)

Zhaochun Yu of Wilmette IL (US)

Lidu Huang of Danville CA (US)

Shaomin Xiong of Newark CA (US)

Gabriel Molina of Sunnyvale CA (US)

Pablo Castillo Canales of San Ramon CA (US)

Peng Chen of Fremont CA (US)

Danni Luo of Sunnyvale CA (US)

Eddie Alex Azuma of Pleasanton CA (US)

Kong Boon Yeap of Campbell CA (US)

Dana Jensen of Redwood City CA (US)

Cameron O'neill of New York NY (US)

Guangwu Duan of Cupertino CA (US)

Raffael Engleitner of Morris Twp NJ (US)

David Xu of Lafayette CA (US)

Yibo Liu of Richmond Hill CA (US)

Ankur Verma of San Jose CA (US)

Lei Zhao of Pittsburgh PA (US)

Yuecheng Li of Pittsburgh PA (US)

Dawei Wang of Pittsburgh PA (US)

SYSTEM AND COMPONENT ARCHITECTURES FOR AR AND VR DEVICES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240297972 titled 'SYSTEM AND COMPONENT ARCHITECTURES FOR AR AND VR DEVICES

The abstract of this patent application describes an augmented reality apparatus that includes various components such as transmission lines, signal-generating circuits, signal-processing circuits, and matching networks.

• The apparatus includes a multiplexer with multiple inputs and at least one output, as well as an additional transmission line coupled to the output of the multiplexer.
• Example AR/VR devices mentioned in the abstract feature cameras with surface variable lenses and support layers, optical layers, membrane layers, and actuators.
• A computer-implemented method for anatomical electromyography test design involves identifying a wearable device with electrodes and calibrating these electrodes.
• DNN accelerators in augmented reality and virtual reality systems may utilize various technologies to enhance computing speed and energy efficiency.

Potential Applications: - Augmented reality and virtual reality systems - Wearable devices for medical testing - Camera technology for AR/VR devices

Problems Solved: - Improving computing speed and energy efficiency in AR/VR systems - Enhancing the accuracy of anatomical electromyography tests - Providing advanced camera features for AR/VR devices

Benefits: - Enhanced user experience in AR/VR applications - Improved accuracy and efficiency in medical testing - Increased performance and functionality of camera systems

Commercial Applications: Title: Advanced AR/VR Technology for Enhanced User Experience This technology can be applied in various industries such as healthcare, gaming, education, and entertainment to provide immersive experiences for users. The market implications include increased demand for AR/VR devices and applications in different sectors.

Questions about AR/VR Technology: 1. How does this technology impact the healthcare industry?

  - This technology can revolutionize medical testing and training processes by providing advanced features for accurate data collection and analysis.

2. What are the potential challenges in implementing this technology in commercial applications?

  - Some challenges may include the cost of development, compatibility with existing systems, and user adoption rates.

Original Abstract Submitted

an augmented reality apparatus includes a plurality of transmission lines, plural signal-generating circuits, at least one additional transmission line, at least one signal-processing circuit, a multiplexer having a plurality of inputs and at least one output, a plurality of matching networks, and an additional matching network coupling the additional transmission line to the output of the multiplexer. example ar/vr devices include a camera configured to receive light from the external environment of the device and to provide a camera signal. the camera may include a surface variable lens including a support layer, an optical layer, a membrane layer, and an actuator. a computer-implemented method for anatomical electromyography test design includes identifying a wearable device having a frame including a plurality of electrodes, and calibrating the plurality of electrodes. in augmented reality and virtual reality systems, dnn accelerators may be based on various technologies to improve computing speed and energy efficiency.