H.264 efficiency
H.264 takes video compression technology to the next level.
The H.264 standard introduces a new advanced intra prediction scheme to encode I-frames. This scheme can significantly reduce the size (in bits) of an I frame while maintaining high quality by successfully predicting small blocks of pixels within a macroblock within a frame. It does this by trying to find matching pixels between the previously encoded pixels that constrain the new 4×4 pixel block for internal encoding. By reusing already encoded pixel values, the bit size of the data can be significantly reduced. The new intra prediction is a key element of H.264 technology and has proven to be very effective. For comparison: even if only I-frames are used in H.264 streaming, the resulting file size will be much smaller than for Motion JPEG streaming.
Illustrations of how some intra-prediction modes can be used when encoding 4×4 pixels within one of the 16 blocks that make up a macroblock. Each of the 16 blocks within a macroblock can be encoded using different modes.
H.264 also improves block-based motion compensation for P and B frame encoding. The H.264 encoder can choose to search for matching blocks (up to sub-pixels
precision) of some or many sections within one or more reference frames. You can also adjust the size and shape of the blocks to improve your search for matches. In areas where matching blocks cannot be found within the frame of reference, internally coded macroblocks are used. The high degree of flexibility of block-by-block motion compensation in H.264 is effective in high-density video environments where image quality must be maintained for the application. Motion compensation is the most requested aspect of a video encoder, and the various ways and levels in which it can be implemented with an H.264 encoder help improve the efficiency of video compression.
With the H.264 standard, typical blocky objects seen in highly compressed Motion JPEG and MPEG (as opposed to H.264) videos can be reduced with the built-in unblocking filter. This filter automatically smooths the edges of the blocks to produce a nearly perfect unwrapped video image.
conclusion
H.264 represents a major step forward in video compression technology. This standard offers various technologies to achieve better compression efficiency through the use of more accurate intra prediction schemes, as well as more robustness. It opens up new possibilities to create advanced video encoders that can significantly improve image quality, increase frame rate and resolution while maintaining the same bit rate (compared to previous standards) or, conversely, provide video of the same quality at a lower bit rate.
H.264 is the first example of a collaboration between the International Telecommunication Union, the International Organization for Standardization and the International Electrotechnical Commission on International Model Video Compression Standards. Due to its flexibility, H.264 has found applications in areas as diverse as high definition DVD (such as Bluray), video streaming including HDTV streaming, online video storage (such as YouTube), 3G mobile phone. , in programs such as QuickTime, Flash, and the MacOS X operating system on Apple computers, as well as on video game consoles such as PlayStation 3. With the support of many industries and software development,
With the wider adoption of the H.264 format in network cameras, video encoders, and video management software, system designers and integrators must be confident that their chosen products and vendors are compliant with this new open standard. Today, network video equipment that supports H.264 and Motion JPEG is the ideal choice, offering the highest degree of versatility and integration.
ssible to receive broadcast quality standard definition video at a rate of 1.5 Mbps. This compression ratio allows the transmission of approximately 12 compressed TV channels in the frequency band previously occupied by an analog TV channel. Additionally, the introduction of AVC enabled television operators to provide new video services in places where they were not previously available and opened up the ability to “pack” more video channels into a narrow and expensive frequency range for transmission. Advantages in encoding efficiency, such as good video quality at low bit rates, have made AVC the undisputed leader in Internet TV systems and have taken the industry to a whole new level. AVC has also significantly improved the quality of digital television and made HDTV high definition television widely available.
