ADAPTIVE FOVEATED ENCODER AND GLOBAL MOTION PREDICTOR

Organization Name

intel corporation

Inventor(s)

Yunbiao Lin of shanghai (CN)

Changliang Wang of Bellevue WA (US)

Ce Wang of Bellevue WA (US)

Yongfa Zhou of Beijing (CN)

Bo Zhao of Shanghai 31 (CN)

Ping Liu of Sunnyvale CA (US)

Jianwei Yang of Beijing (CN)

Zhan Lou of Shanghai (CN)

Yu Yang of Beijing (CN)

Yating Wang of Beijing (CN)

Wenyi Tang of Beijing 11 (CN)

Bo Qiu of Hillsboro OR (US)

ADAPTIVE FOVEATED ENCODER AND GLOBAL MOTION PREDICTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240357159 titled 'ADAPTIVE FOVEATED ENCODER AND GLOBAL MOTION PREDICTOR

The abstract describes an embodiment of an adaptive video encoder that can determine headset-related information, such as focus-related or motion-related information, and use this data to determine video encode parameters. The encoder can then encode a macroblock of a video image based on these parameters.

• The adaptive video encoder can analyze headset-related information to optimize video encoding.
• It can adjust video encode parameters based on focus and motion data from the headset.
• The encoder can efficiently encode video images by considering the specific characteristics of the user's viewing experience.
• This technology aims to enhance video quality and reduce bandwidth consumption by adapting to the user's headset-related information.
• By dynamically adjusting video encode parameters, the adaptive video encoder can improve the overall viewing experience for users.

Potential Applications

The technology can be applied in virtual reality (VR) and augmented reality (AR) systems to enhance video streaming quality. It can be used in video conferencing applications to optimize video encoding based on the user's movements and focus. The adaptive video encoder can improve the performance of video streaming services on mobile devices by adjusting encode parameters according to the user's viewing conditions.

Problems Solved

Addresses the challenge of optimizing video encoding for different viewing environments. Improves the efficiency of video compression by adapting to headset-related information. Enhances the user experience by adjusting video encode parameters based on focus and motion data.

Benefits

Enhanced video quality and reduced bandwidth consumption. Improved user experience in VR, AR, and video conferencing applications. Optimized video streaming performance on mobile devices.

Commercial Applications

Title: Adaptive Video Encoder for Enhanced Video Quality in VR and AR Applications This technology can be utilized by VR and AR content providers to deliver high-quality video experiences to users. Video streaming platforms can integrate this adaptive video encoder to optimize video encoding for a variety of viewing conditions. Telecommunication companies can leverage this technology to enhance video conferencing services and improve overall user satisfaction.

Questions about Adaptive Video Encoder

How does the adaptive video encoder improve video quality in VR and AR applications?

The adaptive video encoder analyzes headset-related information to adjust video encode parameters, resulting in optimized video quality tailored to the user's viewing experience.

What are the potential benefits of using an adaptive video encoder in video conferencing applications?

By adapting to focus and motion data from the headset, the adaptive video encoder can improve video quality, reduce bandwidth consumption, and enhance the overall user experience in video conferencing scenarios.

Original Abstract Submitted

an embodiment of an adaptive video encoder may determine headset-related information including at least one of focus-related information and motion-related information and determine one or more video encode parameters based on the headset-related information. the adaptive video encoder may also encode a macroblock of a video image based on the one or more determined video encode parameters. other embodiments are disclosed and claimed.