At 1080p, with 256 levels of brightness per pixel, "...over a trillion
instructions per second, the only transport system that could successfully
move this level of data was digital."
True?
- -
"There's nothing on it worthwhile, we're not going to watch it in this
household, and I don't want it in your intellectual diet."
- Philo T. Farnsworth, to his children
Anything is possible with enough bandwidth...
Exactly right.
We know that the luminance bandwidth of NTSC is 4.2 MHz, and PAL goes
from 5 MHz to 6 MHz, depending on the specific flavor. So what would
the estimate be for an analog version of 1080p?
If 1080p means 1920 X 1080 at 60p, and 1080 visible lines means 1125
total lines, then the luminance bandwidth would be 960 cycles/line *
1125 lines/frame * 60 frames/sec = 64.8 MHz
Although 1080 at 60p is beyond what is specified for ATSC at this
time. ATSC goes up to 720 at 60p, 1080 at 30p, or 1080 at 60i.
Luminance bandwidth should not exceed ~32 MHz theoretical max. No
reason why that can't be transmitted analog, if you throw enough
bandwidth at it.
Bert
If we disregard compression, then digital transmission does provide a
slight improvement in error rate at a given SNR, but it is not super.
Compression is a real biggie with digital. But, I see no reason that
the bandwidth required CANNOT be obtained to do 1080p analog. I have
seen some experimental closed circuit stuff that was amazingly high
resolution.
> From the Dec. '07 issue of Widescreen Review, Jeffery Boccaccio, Invisions
> Technology
> ["Digital Performance Testing"] .
>
> At 1080p, with 256 levels of brightness per pixel, "...over a trillion
> instructions per second, the only transport system that could successfully
> move this level of data was digital."
>
> True?
<http://en.wikipedia.org/wiki/HD-MAC>
<http://en.wikipedia.org/wiki/Multiple_sub-nyquist_sampling_Encoding_sys
tem>
HTH
Jörg
--
Going to triple-check table height/slantness, then face Atsugi and
light some incense....(Was anybody else advised to read "Shogun" to
understand Japanese mechanical video?)
Gary Woods in sci.engr.television.broadcast
Interesting. Thanks Jörg.