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Page 1 Naveen Aggarwal Page 2 Naveen Aggarwal ? We need to compress video (and audio) in practice since: ? Uncompressed video (and audio) data are huge. In HDTV, the bit rate easily exceeds 1 Gbps. -- big problems for storage and network communications. – For example: HDTV is 1920 pixels horizontally by 1080 lines vertically, at 30 frames per second. Hence, the total data rate required would be approximately 1.5 Gb/sec. – Because of the 6 MHz. channel bandwidth allocated, each channel will only support a data rate of 19.2 Mb/sec, which is further reduced to 18 Mb/sec by the fact that the channel must also support audio, transport, and ancillary data information. – As can be seen, this restriction in data rate means that the original signal must be compressed by a figure of approximately 83:1. Page 3 Naveen Aggarwal ? We need to compress video (and audio) in practice since: ? Uncompressed video (and audio) data are huge. In HDTV, the bit rate easily exceeds 1 Gbps. -- big problems for storage and network communications. – For example: HDTV is 1920 pixels horizontally by 1080 lines vertically, at 30 frames per second. Hence, the total data rate required would be approximately 1.5 Gb/sec. – Because of the 6 MHz. channel bandwidth allocated, each channel will only support a data rate of 19.2 Mb/sec, which is further reduced to 18 Mb/sec by the fact that the channel must also support audio, transport, and ancillary data information. – As can be seen, this restriction in data rate means that the original signal must be compressed by a figure of approximately 83:1. ? The following compression types are commonly used in Video compression: ? Spatial Redundancy Removal – Intra frame coding (JPEG) ? Spatial and Temporal Redundancy Removal – Intra frame and Inter frame coding (H.261, H.263, MPEG) Page 4 Naveen Aggarwal ? We need to compress video (and audio) in practice since: ? Uncompressed video (and audio) data are huge. In HDTV, the bit rate easily exceeds 1 Gbps. -- big problems for storage and network communications. – For example: HDTV is 1920 pixels horizontally by 1080 lines vertically, at 30 frames per second. Hence, the total data rate required would be approximately 1.5 Gb/sec. – Because of the 6 MHz. channel bandwidth allocated, each channel will only support a data rate of 19.2 Mb/sec, which is further reduced to 18 Mb/sec by the fact that the channel must also support audio, transport, and ancillary data information. – As can be seen, this restriction in data rate means that the original signal must be compressed by a figure of approximately 83:1. ? The following compression types are commonly used in Video compression: ? Spatial Redundancy Removal – Intra frame coding (JPEG) ? Spatial and Temporal Redundancy Removal – Intra frame and Inter frame coding (H.261, H.263, MPEG) ? H. 261 Compression has been specifically designed for video telecommunication applications: ? Developed by CCITT in 1988-1990 ? Meant for videoconferencing, video telephone applications over ISDN telephone lines. ? Baseline ISDN is 64 kbits/sec, and integral multiples (px64) ? Maximum combined delay for compression and decompression is less than 150ms. Page 5 Naveen Aggarwal ? We need to compress video (and audio) in practice since: ? Uncompressed video (and audio) data are huge. In HDTV, the bit rate easily exceeds 1 Gbps. -- big problems for storage and network communications. – For example: HDTV is 1920 pixels horizontally by 1080 lines vertically, at 30 frames per second. Hence, the total data rate required would be approximately 1.5 Gb/sec. – Because of the 6 MHz. channel bandwidth allocated, each channel will only support a data rate of 19.2 Mb/sec, which is further reduced to 18 Mb/sec by the fact that the channel must also support audio, transport, and ancillary data information. – As can be seen, this restriction in data rate means that the original signal must be compressed by a figure of approximately 83:1. ? The following compression types are commonly used in Video compression: ? Spatial Redundancy Removal – Intra frame coding (JPEG) ? Spatial and Temporal Redundancy Removal – Intra frame and Inter frame coding (H.261, H.263, MPEG) ? H. 261 Compression has been specifically designed for video telecommunication applications: ? Developed by CCITT in 1988-1990 ? Meant for videoconferencing, video telephone applications over ISDN telephone lines. ? Baseline ISDN is 64 kbits/sec, and integral multiples (px64) ? Maximum combined delay for compression and decompression is less than 150ms. The basic approach to H. 261 Compression is summarised as follows: •Decoded Sequence •Frame types are CCIR 601 CIF (352x288) and QCIF (176x144) images with 4:2:0 subsampling. •Two frame types: Intraframes (I-frames) and Interframes (P-frames) •I-frames use basically JPEG •P-frames use pseudo-differences from previous frame (predicted), so frames depend on each other. •I-frame provide us with an accessing point.Read More
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