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802.11 Packets and MPEG Frames Background to Graceful degradation of audio video streams and Intra-Access Category prioritization. Date: 2008-06-16. Authors:. Abstract. The typical make-up of various MPEG video streams is determined The relationship to 802.11 packets is noted
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802.11 Packets and MPEG FramesBackground to Graceful degradation of audio video streams and Intra-Access Category prioritization Date: 2008-06-16 Authors: Graham Smith, DSP Group
Abstract • The typical make-up of various MPEG video streams is determined • The relationship to 802.11 packets is noted • The results are considered with respect to the objectives of: • Graceful degradation of audio video streams • Intra-Access Category prioritization of transport streams Graham Smith, DSP Group
Objectives Two objectives of PAR are: Graceful degradation of audio video streams when there is insufficient channel capacity, by enabling packet discarding without any requirement for deep packet inspection, Intra-Access Category prioritization of transport streams by modifying EDCA timing and parameter selection without any requirement for deep packet inspection The question to be considered is: “What are the relationships between an 802.11 packet, and the various MPEG Frames” Graham Smith, DSP Group
SDTV and HDTV • SDTV • 720 x 480 pixels, at 30fps (NTSC) • 720 x 576 pixels, at 25fps (PAL) • HDTV • 1280 x 720 pixels at 50/60fps (720p) • 1920 x 1080 pixels at 25/30fps (1080i) • 1920 x 1080 pixels at 50/60fps (1080p) Graham Smith, DSP Group
MPEG2 Basics I – Frame = Intra Coded Frame P – Frame = Predictive Coded Frame B – Frame = Bi-directionally Predicted Coded Frame GOP = Group of Pictures GOP = 8, 12 or 16 Typical sequence for GOP 12 I B B P B B P B B P B B (I) One I, Three P, Eight B Typically P - Frame = 1/3 (I – Frame) B – Frame = 1/2 (P – Frame) Hence in GOP of 12 I + (I/3 x 3) + (I/6 x 8) = 3.333I I : P : B = 30% : 30% : 40% Graham Smith, DSP Group
Example – 1080i • 1920 x 1080 = 2073600 pixels/frame • 1920 x 1080 x 25 = 5184000 pixels/sec Data Rate = 18Mbps (say) • Mean Pixels/bit = 18/5.184000 = 2.88 • Ave Bits/Frame = 2073600/2.88 = 720000 • Number of bits in GOP (12) = 720000 x 12 = 8640000 Typical Frames • I-Frame = 8640000/3.3333 = 2592000 bits • P- Frame = 864000 bits • B-Frame = 432000 bits Graham Smith, DSP Group
802.11 Packets Typical Frames – 1080i • I-Frame = 2592000 bits • P- Frame = 864000 bits • B-Frame = 432000 bits 802.11 packet = 7 x 188 (TS) = 1316B = 10528 bits • I-Frame = 246.2006 packets • P- Frame = 82.06687 packets • B-Frame = 41.03344 packets Typical COG (12 frames) 246.2006 Pkts 820.6687 Packets = 108000 Bytes Graham Smith, DSP Group
Approach from 08/529r2 • VTS stream intra-flow differentiation fields • Used for frame differentiation within one video flow, e.g., (Suggested method VTS Flag in TSINFO and b8-15 QoS Control Field) • I,P,B frames in MPEG-2 video flow; • video, audio, FEC packets in one video flow • Provide the frame dropping criteria when there is insufficient channel capacity Graham Smith, DSP Group
As the decoder must predict some frames from subsequent frames, we must have a decode order separate from the presentation order. Presentation Order(coming out of encoder, and as you see it on TV.) I1 B1 B2 P1 B3 B4 P2 B5 B6 P3 B7 B8 P3 B5 B6 … I1 P1 B1 B2 P2 B3 B4 DecodeOrder (going into set-top box buffer) Source: MPEG and Digital Video in Modern Video Networks, Sept 13, 2006, JDSU , 2006 Graham Smith, DSP Group
Group of Pictures (GOP) Error on I Frame Error Propagation After Sarnoff 1999 Error on a single frame can propagate spatially and temporally Source: MPEG and Digital Video in Modern Video Networks, Sept 13, 2006, JDSU Graham Smith, DSP Group
Effect of Losing one Packet • Example 1080i • I Frame = 2592000 bits = 2592000/1080/2 = 1200 bits/line • One lost packet = 10528 bits = 4.3866 lines and 12 frames affected (0.48sec) • P Frame = 864000 bits = 400 bits/line • One lost packet = 26.32 lines, 2 or 3 frames effected • 2.4%? of picture for 0.08sec • B Frame = 432000 bits = 200 bits/line • One lost packet = 52.64 lines but only 1 frame effected • 4.8%? of picture for 1/25th sec So, which packets can be dropped? Definitely not an I Frame almost 0.5 second error P and B Frames ? Graham Smith, DSP Group
MPEG-2 Loss of a single TS video Packet Source=Nortel Single B-frame IP packet loss (1 frame affected) Single I-frame IP packet loss ( 14 frames affected) Packet Loss Impact 3.75 Mbps stream: B packet loss vs. I packet loss Need to look at a real video! Graham Smith, DSP Group
Packet Loss Experiment • Stream various videos, SD, HD, MPEG2, MPEG4, using VLC* over Ethernet and WLAN. • Program blocks packets, randomly, at a preset percentage e.g. 10% to 0.01% packet loss • Program keeps count of • Total packets sent • Number of packets blocked • Packet Loss • Observer(s) note(s) errors in video Definitely not an I-Frame almost 0.5 second error. P and B Frames ? *http://www.videolan.org/ Graham Smith, DSP Group
Packet Loss Experiment – LIVE! Observed Errors Ethernet Compare Observed Errors to Blocked Packets Ideally, for MPEG2: 30% will be I Frame errors 30% will be P Frame errors 40% will be B Frame errors “PKTS T/D 397584/45 PER 0.01” *http://www.videolan.org/ Graham Smith, DSP Group
RESULTS • Video Clip – HDTV ~17Mbps MPEG2 (Corvette) • # of blocked packets • # of observed errors • Video Clip – SDTV ~7Mbps MPEG2 • # of blocked packets • # of observed errors • Video Clip – SDTV ~4Mbps MPEG4 • # of blocked packets • # of observed errors Graham Smith, DSP Group
Video Codec Points • The VLC* video decoder is software, is this a fair representation of a video decoder? • VLC* is very popular media player/recorder for laptops/PCs • VLC* is free • Some decoders may have certain error masking features, do we assume their presence? • Propose that 802.11aa could use VLS* codec as a standard *http://www.videolan.org/ Graham Smith, DSP Group
Conclusions • Results of tests show ? • Quality? • Is dropping B or P frames a good idea? • Is having a lower priority on P or B Frames a good idea? Graham Smith, DSP Group