At 7 Feb 04:56 CST, Jim Thompson wrote:
I don't see how a 28.8kbps (raw) data rate is possible, as the Shannon limit for a POTS line is 22kbps. Certainly parts of the phone system no longer impose the narrow bandwidth that are part of the 'spec', but one can not always depend on getting a line that exceedes the published parameters of the phone system.
Where do you get this figure of 22 kbps? I would tend to dispute it since I use a Codex FAST modem on my SLIP link and it really does run at 24.0 kb/s on the wire (not counting compression). The throughput display often reads 30 kb/s even when I'm shipping a pre-compressed or encrypted binary file, although that's a phony figure because it includes the asynch start/stop bits that aren't actually sent over the wire. The usual Shannon limit of a phone line is more like 30 kb/s, although it can vary enormously. Generalizations are dangerous. At the very least, you can certainly say that it's no greater than 64kb/s, since it's almost certain that your call passes through a mu-law codec somewhere. Back to vocoders, their quality does tend to be a strong function of data rate. 8kb/s CELP is really not that bad - a little warbly when there's background noise, but not objectionably so in my opinion. In a mobile telephone environment (where I'm familiar with it), it's *much* less objectionable than the usual impairments you get from ordinary FM analog transmission. 4kb/s is noticeably worse. Things get rapidly better as you go above 10-12 kb/s with present algorithms. Also, vocoders need not be constant rate. Ours selects one of four rates on the fly depending on voice activity, which doubles capacity in a CDMA radio environment. It'd also be useful in a packet network, although the small frame sizes (2/5/10/22 bytes) can make header overhead rather significant.