Technical Articles High Definition 1080p TV: Why You Should Be Concerned
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High Definition 1080p TV: Why You Should Be Concerned High Definition 1080p TV: Why You Should Be Concerned |
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| Written by Brian Florian and Colin Miller | |||||||
| Wednesday, 28 February 2007 | |||||||
Page 3 of 5 Native 1080p Material: A Hidden Reality The amazing thing is that the whole 1080i vs. 1080p argument is more than just analogous to the 480i NTSC vs. 480p Progressive Scan DVD of yesteryear, so the groundwork for an understanding is already in place. The principles and math are all the same, only now at a higher resolution. If one understands why Progressive Scan DVD players even exist, then you should already be able to understand how and why 1080p not only exists, but is already ubiquitous. We said that 1080p is the entire 1920 x 1080 raster sampled and/or displayed at one time. No fields. Just full, 1920 x 1080 frames. No jaggies. No line twitter. Just perfect pictures. The question is, at what temporal resolution? If it were captured with the same 60 Hz temporal resolution of 1080i60, it would indeed be well beyond the scope of today's HDTV transmission system as well as the new HD disc formats. 1080p exists today as a 24 frame-per-second format. The shorthand for this format is 1080p24. But if there is no medium to carry 1080p24 why should we care? We care for the same reason we cared about 480p Progressive Scan DVD: Because a p24 signal can be perfectly "folded" into an i60 carrier(2). Most of the HDTV material you could tune into tonight falls into one of two categories: either the material was shot with a digital camera at 1080p24, or it was shot on 35mm film and transferred to this very same 1080p24 digital format. With the exception of some sports and some other "live" shows, everything from sitcoms to dramas, and of course all movies, fall into this 1080p24 realm. So how do we get our hands on this 1080p24 if the TV signals and discs are all 1080i60? To find out we need to understand the transfer of 1080p24 to 1080i60 (which incidentally follows the exact same principal used to convert 24fps movies to yesteryear's i60 NTSC TV system for decades). Lets consider a sequence of 4 frames. The first frame of the p24 source gets "cut" into two fields, the odds and the evens again. Each field contains exactly half of the original frame. But we can't carry on like that because we'd end up with 48 fields every second, not 60. For this reason we simply "double up" on one field every other frame. In other words, the second frame of our sequence is still cut into two fields, but we repeat its first field. The third frame is cut into two fields, as is the fourth, but again we repeat its first field. So we end up with a 2-3 pattern in the fields.
Field B3 is a duplicate of B1, and D3 is a duplicate of D1.
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