2020-12-09, 01:15 PM
I decided to start this thread because I always read certain claims, by codec producers and/or users, about alleged subjective transparency of lossy codecs at really low bitrates; last of them was by MPEG-H (that uses AAC) that set transparency level at 96kbps per channel - that is 8 times less than uncompressed LPCM.
Now, how can anybody find out how lossy is that codec, or any other? And, what does it mean "subjectively transparent"?
According to Wikipedia:
Then, a given codec compressed using a given bitrate and/or setting could sound transparent to me, but not to someone else, or could sound transparent when played in a portable audio player and earplugs but not on a hi-fi system.
Said so, if I "lock" certain variables - subject: me, sound chain: always the same - how can I state a given codec is "subjectively transparent"? And, which could be "more transparent" than another?
I thought about several ways to compare original and lossy encoded files:
Conclusion: taken in account that more or less all lossy codec sound "nice" around reasonable compression ratio that start from ratio 8:1 (depending on codecs), and almost all sound good around 4:1, and their waveforms are very similar, personally I prefer the codecs that does not cut high frequencies - even if some can't hear higher frequencies, it doesn't mean an encoded files should discard them - and, between them, I decided to favour the ones that have less audio differences.
Note: psychoacoustic techniques used in many modern lossy codecs help to lower bitrate, but introduce often audible artifacts not found on older codecs - maybe there is a reason while Auro decided to not use them in their Octopus codec!
PS: despite someone still claim, in 2020, superior quality of certain lossless codecs, they indeed sound ALL EXACTLY THE SAME (if played through the same chain of source-cables-amplifier-speakers, of course); hence: FLAC, DTS-HD, MA Dolby TrueHD etc. when decoded are all identical, bit by bit, to the uncompressed source.
Now, how can anybody find out how lossy is that codec, or any other? And, what does it mean "subjectively transparent"?
According to Wikipedia:
Quote:In data compression and psychoacoustics, transparency is the result of lossy data compression accurate enough that the compressed result is perceptually indistinguishable from the uncompressed input. In other words, transparent compression has no perceptible compression artifacts.
Then, a given codec compressed using a given bitrate and/or setting could sound transparent to me, but not to someone else, or could sound transparent when played in a portable audio player and earplugs but not on a hi-fi system.
Said so, if I "lock" certain variables - subject: me, sound chain: always the same - how can I state a given codec is "subjectively transparent"? And, which could be "more transparent" than another?
I thought about several ways to compare original and lossy encoded files:
- listening tests - just play one after the other (possibly with an ABX method)
- waveforms - using Audacity, looking for difference in waveform shapes
- spectrum analysis - using Spek (or Audacity etc.) looking for difference in frequency and loudness
- audio difference - using Audacity, load first original file; then load encoded file; if stereo, divide each track in two mono tracks; invert phase in one file; playing both (one in phase, one out of phase) will lead to cancel similar sound, leaving only the difference
Conclusion: taken in account that more or less all lossy codec sound "nice" around reasonable compression ratio that start from ratio 8:1 (depending on codecs), and almost all sound good around 4:1, and their waveforms are very similar, personally I prefer the codecs that does not cut high frequencies - even if some can't hear higher frequencies, it doesn't mean an encoded files should discard them - and, between them, I decided to favour the ones that have less audio differences.
Note: psychoacoustic techniques used in many modern lossy codecs help to lower bitrate, but introduce often audible artifacts not found on older codecs - maybe there is a reason while Auro decided to not use them in their Octopus codec!
PS: despite someone still claim, in 2020, superior quality of certain lossless codecs, they indeed sound ALL EXACTLY THE SAME (if played through the same chain of source-cables-amplifier-speakers, of course); hence: FLAC, DTS-HD, MA Dolby TrueHD etc. when decoded are all identical, bit by bit, to the uncompressed source.




![[Image: SbwT7GMK_o.png]](https://images2.imgbox.com/46/75/SbwT7GMK_o.png)
but I would like only to add this: Cinema DTS using APT-X 100 at 882kbps sounds great, much better than AC3 at 320kbps (obvious?) and "probably" even better than home DTS using Coherent Acoustic codec at 1411kbps.
![[Image: 01gw.png]](https://www.zupimages.net/up/20/45/01gw.png)