18671059. VIDEO DECODING APPARATUS simplified abstract (SHARP KABUSHIKI KAISHA)
VIDEO DECODING APPARATUS
Organization Name
Inventor(s)
Takeshi Chujoh of Sakai City (JP)
Eiichi Sasaki of Sakai City (JP)
Tomonori Hashimoto of Sakai City (JP)
Tomoko Aono of Sakai City (JP)
Tomohiro Ikai of Sakai City (JP)
VIDEO DECODING APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18671059 titled 'VIDEO DECODING APPARATUS
The abstract describes an image decoding apparatus designed to maintain coding efficiency even at high compression rates. The apparatus includes a parameter decoder that interprets skip, merge, and MMVD flags to determine the applied modes.
- Parameter decoder in the image decoding apparatus
- Decodes skip flag to determine skip mode application
- Decodes merge flag to identify merge mode usage
- Decodes MMVD flag to indicate MMVD mode implementation
Potential Applications: - Video compression technologies - Image processing software - Multimedia streaming services
Problems Solved: - Maintaining coding efficiency at high compression rates - Improving image decoding accuracy
Benefits: - Enhanced coding efficiency - Improved image quality at high compression rates
Commercial Applications: Title: Advanced Image Decoding Technology for Efficient Compression This technology can be utilized in video streaming services, image editing software, and multimedia compression tools to enhance coding efficiency and improve image quality.
Questions about Image Decoding Technology: 1. How does the parameter decoder in the image decoding apparatus contribute to maintaining coding efficiency? 2. What are the potential applications of this technology in the multimedia industry?
Original Abstract Submitted
An image decoding apparatus is implemented that can suppress a decrease in coding efficiency in a case that a high compression rate is achieved. The image decoding apparatus includes a parameter decoder, and the parameter decoder decodes a skip flag indicating whether a skip mode is applied, and in a case that the skip flag does not indicate the skip mode, decodes a merge flag indicating whether a merge mode is applied, and in a case that the merge flag does not indicate the merge mode, decodes an MMVD flag indicating whether an MMVD mode is applied.