VIDEO IMAGE TRANSMISSION METHOD, DEVICE AND SYSTEM

Organization Name

boe technology group co., ltd.

Inventor(s)

Xiaohui Ma of Beijing (CN)

Youxue Wang of Beijing (CN)

Kai Geng of Beijing (CN)

Liye Duan of Beijing (CN)

Da Li of Beijing (CN)

VIDEO IMAGE TRANSMISSION METHOD, DEVICE AND SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240187704 titled 'VIDEO IMAGE TRANSMISSION METHOD, DEVICE AND SYSTEM

Simplified Explanation

The disclosure provides a video image transmission method, including: capturing and uploading video images to a cloud server in real time, by a video image capture terminal; acquiring first speed information of uploading the video images by the video image capture terminal and second speed information of receiving the video images by the cloud server; determining, according to first speed information, second speed information and a current ratio n of a first frame rate at which the video image capture terminal captures the video images and a second frame rate at which the video image capture terminal uploads the video images, a target ratio m of the first frame rate to the second frame rate, the target ratio m and the current ratio n being both positive integers; and adjusting, according to the target ratio m, a speed at which the video image capture terminal uploads the video images, to match an adjusted speed at which the video image capture terminal uploads the video images with a speed at which the cloud server receives the video images.

• Video image transmission method
• Real-time capturing and uploading of video images to a cloud server
• Adjusting upload speed based on target ratio of frame rates
• Optimization of upload speed to match cloud server receiving speed

Potential Applications

This technology can be applied in live streaming, video conferencing, remote surveillance, and online gaming.

Problems Solved

This technology solves the problem of mismatched upload and receiving speeds in video image transmission, leading to smoother and more efficient data transfer.

Benefits

The benefits of this technology include improved video quality, reduced latency, and enhanced user experience in real-time video applications.

Potential Commercial Applications

The potential commercial applications of this technology include video streaming services, telecommunication companies, security and surveillance systems, and online gaming platforms.

Possible Prior Art

Prior art may include existing video transmission methods that do not dynamically adjust upload speeds based on frame rate ratios to optimize data transfer efficiency.

Unanswered Questions

How does this technology impact data usage in video transmission applications?

This technology can potentially optimize data usage by adjusting upload speeds to match receiving speeds, reducing unnecessary data consumption and improving overall efficiency in video transmission.

What are the implications of this technology on network bandwidth usage?

This technology may help in reducing network congestion and optimizing bandwidth usage by ensuring that video images are uploaded at an appropriate speed to match the cloud server's receiving capabilities.

Original Abstract Submitted

the disclosure provides a video image transmission method, including: capturing and uploading video images to a cloud server in real time, by a video image capture terminal; acquiring first speed information of uploading the video images by the video image capture terminal and second speed information of receiving the video images by the cloud server; determining, according to first speed information, second speed information and a current ratio n of a first frame rate at which the video image capture terminal captures the video images and a second frame rate at which the video image capture terminal uploads the video images, a target ratio m of the first frame rate to the second frame rate, the target ratio m and the current ratio n being both positive integers; and adjusting, according to the target ratio m, a speed at which the video image capture terminal uploads the video images, to match an adjusted speed at which the video image capture terminal uploads the video images with a speed at which the cloud server receives the video images.