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DAB R3 balance
In article , Pat Wallace wrote:
Returning again to the original topic of the thread, I can report that the BBC have confirmed that "there was a problem with some of the coders on Radio 3 but we believe that all is now fixed". Ah. Useful. That seems to explain the problem at least partially. I was wondering about the possibility of a temporary rate reduction (as postulated by another poster). However, from listening to R3/DAB at a time when I knew the bandwidth had been reduced, I concluded that the fault seemed to have a bigger impact. -- John Phillips |
DAB R3 balance
In article , DAB sounds worse than
FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Exactly! It is the narrow dynamic range that makes R1 and R2 more difficult to encode than R3. I bet that's confused ya! It has certainly puzzled me. Can you explain your reasoning and define what you mean by "more difficult"? The noise to mask ratio (NMR - noise (error) energy to energy under masking curve for each subband) gives a measure of coding head-room, and you want it to be as low as possible (i.e. noise as far below the masking threshold as possible). OK. Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? The same is not true for classical music, because its spectrum isn't as flat, and on average less frequency components remain after masking. As you can see above, I can see your general point and it seems logical. However I'm not certain of your use of terms like 'flat' here. A signal might only contain a few components of the same level, or it might give a spectrum with a uniform spectral density, but these would be quite different cases. Also a spectrum may be uniform when averaged over one time interval, but not uniform over another. (Indeed, for music this seems desirable if we don't just want to listen to white noise. :-) ) Therefore, for a given bit rate, there are more bits per post-masking frequency component for Radio 3 than for Radios 1 & 2, thus the NMR is superior (lower) for Radio 3, because the noise energy is the quantisation noise, which decreases as the bits per frequency component encoded increases. FWIW I have no experience of DAB. But with freeview the times I (think!) I may have noticed problems with R3 are mostly when the sound levels are quite low. e.g. Strings playing very quietly. i.e. at levels well below what I hear on R2. Dynamic range and sound level for MPEG-encoded audio are irrelevant, because the MPEG encoder changes the sample values to floating point. Is it the case that all MP2/3's encode the spectra as floating point values? If so, what is the precision? The point pun you make here is interesting as I have been wondering if some of the artefacts I think I've noticed at low level may be due to rounding or precision/quantisation errors and have been wondering if this is due to the *receiver* using too low a level of precision. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
DAB R3 balance
Jim Lesurf wrote:
In article , DAB sounds worse than FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Exactly! It is the narrow dynamic range that makes R1 and R2 more difficult to encode than R3. I bet that's confused ya! It has certainly puzzled me. Can you explain your reasoning and define what you mean by "more difficult"? The noise to mask ratio (NMR - noise (error) energy to energy under masking curve for each subband) gives a measure of coding head-room, and you want it to be as low as possible (i.e. noise as far below the masking threshold as possible). OK. Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The same is not true for classical music, because its spectrum isn't as flat, and on average less frequency components remain after masking. As you can see above, I can see your general point and it seems logical. However I'm not certain of your use of terms like 'flat' here. A signal might only contain a few components of the same level, or it might give a spectrum with a uniform spectral density, but these would be quite different cases. Also a spectrum may be uniform when averaged over one time interval, but not uniform over another. (Indeed, for music this seems desirable if we don't just want to listen to white noise. :-) ) I agree that it's not flat, but it is a hell of a lot flatter than for R3. Therefore, for a given bit rate, there are more bits per post-masking frequency component for Radio 3 than for Radios 1 & 2, thus the NMR is superior (lower) for Radio 3, because the noise energy is the quantisation noise, which decreases as the bits per frequency component encoded increases. FWIW I have no experience of DAB. But with freeview the times I (think!) I may have noticed problems with R3 are mostly when the sound levels are quite low. e.g. Strings playing very quietly. i.e. at levels well below what I hear on R2. Dynamic range and sound level for MPEG-encoded audio are irrelevant, because the MPEG encoder changes the sample values to floating point. Is it the case that all MP2/3's encode the spectra as floating point values? If so, what is the precision? MPEG Layer I/II use 6 exponent bits (referred to as a scale factor) which covers -118 dB to +6dB in 2dB steps and between 2 and 15 bits for the mantissa, depending on subband and masking curve level. The point pun you make here is interesting as I have been wondering if some of the artefacts I think I've noticed at low level may be due to rounding or precision/quantisation errors and have been wondering if this is due to the *receiver* using too low a level of precision. I think it's far more likely that you're hearing an MPEG artefact... IME, the tracks that fair the worst on digital radio are loud electric guitar tracks. Even within the same track the audio quality can vary from being very good to absolutely abysmal. This can happen when the loud electric guitar pauses and you've just got a vocal, and then the electric guitar starts again and it is simply attrocious. This is, and always will be, caused simply by insufficient bit rate. If VBR (variable bit rate) and statistical multiplexing across the multiplex (as used on digital TV) could be used then this suituation could be drastically improved, but we can't use either, so when a track that is difficult to encode is on then Radio 1 listeners in particular just have to suffer so that the Radio 3 listeners don't. So, the next time you think you hear a slight MPEG artefact, just consider that Radio 1 listeners have to put up with most tracks consist of audio + MPEG artefacts throughout the track. If you can justify that to yourself as being fair then the only conclusion I can come to is that you're extremely selfish. -- Steve - www.digitalradiotech.co.uk - Digital Radio News & Info Find the cheapest Freeview, DAB & MP3 Player Prices: http://www.digitalradiotech.co.uk/fr..._receivers.htm http://www.digitalradiotech.co.uk/da...tal_radios.htm http://www.digitalradiotech.co.uk/mp...rs_1GB-5GB.htm http://www.digitalradiotech.co.uk/mp...e_capacity.htm |
DAB R3 balance
In article , DAB sounds worse than
FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The difficulty is that doesn't necessarily lead to your conclusion. The spectral components present in any time frame may extend across a wider range, and be more unform in size. But if the *number* of components that are resolved in the time frame are sigificantly less, then the 'weeding' process may lose less info. Impossible to assess this without much more specific info than simply observing a tendency for the components that are present to have similar levels, etc. Hence I think the point you make is certainly an important one, but it may not establish the conclusion you draw without more specific evidence. Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. Is it the case that all MP2/3's encode the spectra as floating point values? If so, what is the precision? MPEG Layer I/II use 6 exponent bits (referred to as a scale factor) which covers -118 dB to +6dB in 2dB steps and between 2 and 15 bits for the mantissa, depending on subband and masking curve level. OK. The interesting part here seems to me to be that the matissa may be down to just a few bits. The point pun you make here is interesting as I have been wondering if some of the artefacts I think I've noticed at low level may be due to rounding or precision/quantisation errors and have been wondering if this is due to the *receiver* using too low a level of precision. I think it's far more likely that you're hearing an MPEG artefact... That is certainly possible. Also quite possible that I am imagining it, or it stems from something else in the chain... IME, the tracks that fair the worst on digital radio are loud electric guitar tracks. Even within the same track the audio quality can vary from being very good to absolutely abysmal. This can happen when the loud electric guitar pauses and you've just got a vocal, and then the electric guitar starts again and it is simply attrocious. This is, and always will be, caused simply by insufficient bit rate. If VBR (variable bit rate) and statistical multiplexing across the multiplex (as used on digital TV) could be used then this suituation could be drastically improved, but we can't use either, so when a track that is difficult to encode is on then Radio 1 listeners in particular just have to suffer so that the Radio 3 listeners don't. So, the next time you think you hear a slight MPEG artefact, just consider that Radio 1 listeners have to put up with most tracks consist of audio + MPEG artefacts throughout the track. If you can justify that to yourself as being fair then the only conclusion I can come to is that you're extremely selfish. Can't really comment on what may be 'fair' here. Just have an interest in when the system may show audible problems. Since I don't listen much to R1/2 (and never on DAB) I can't pass any comment on them one way or the other. FWIW in terms of *video* I have certainly seen very 'odd' effects at times on BBCTV4 via DTTV. e.g. I have DVD+R's of one prom where the 'live' sic broadcast has a picture that 'stutters' throughout a large part of the broadcast, but where the late-night repeat is fine. I assume this was variable rate statmux stealing bitrate from BBCTV4 during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat. Would not surprise me if similar 'audio' crudities turned up on DAB at times. But as I say, I have no direct experience of that so can only surmise. The effect I think I've heard on DTTV R3 seems to occur on some occasions and not others even when the music is similar. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
DAB R3 balance
Jim Lesurf wrote:
In article , DAB sounds worse than FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The difficulty is that doesn't necessarily lead to your conclusion. Common sense dictates that it does. The spectral components present in any time frame may extend across a wider range, and be more unform in size. But if the *number* of components that are resolved in the time frame are sigificantly less, then the 'weeding' process may lose less info. Impossible to assess this without much more specific info than simply observing a tendency for the components that are present to have similar levels, etc. Hence I think the point you make is certainly an important one, but it may not establish the conclusion you draw without more specific evidence. What I've heard over the last 3 years tell me that I'm right. Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. I cannot prove this with absolute certainty, but it's beyond reasonable doubt IMO. Is it the case that all MP2/3's encode the spectra as floating point values? If so, what is the precision? MPEG Layer I/II use 6 exponent bits (referred to as a scale factor) which covers -118 dB to +6dB in 2dB steps and between 2 and 15 bits for the mantissa, depending on subband and masking curve level. OK. The interesting part here seems to me to be that the matissa may be down to just a few bits. Yes, less bits are assigned to higher frequencies because we're less sensitive, apparently. Having said that, it's the top-end that is the biggest problem, IMO. The point pun you make here is interesting as I have been wondering if some of the artefacts I think I've noticed at low level may be due to rounding or precision/quantisation errors and have been wondering if this is due to the *receiver* using too low a level of precision. I think it's far more likely that you're hearing an MPEG artefact... That is certainly possible. Also quite possible that I am imagining it, or it stems from something else in the chain... IME, the tracks that fair the worst on digital radio are loud electric guitar tracks. Even within the same track the audio quality can vary from being very good to absolutely abysmal. This can happen when the loud electric guitar pauses and you've just got a vocal, and then the electric guitar starts again and it is simply attrocious. This is, and always will be, caused simply by insufficient bit rate. If VBR (variable bit rate) and statistical multiplexing across the multiplex (as used on digital TV) could be used then this suituation could be drastically improved, but we can't use either, so when a track that is difficult to encode is on then Radio 1 listeners in particular just have to suffer so that the Radio 3 listeners don't. So, the next time you think you hear a slight MPEG artefact, just consider that Radio 1 listeners have to put up with most tracks consist of audio + MPEG artefacts throughout the track. If you can justify that to yourself as being fair then the only conclusion I can come to is that you're extremely selfish. Can't really comment on what may be 'fair' here. Just have an interest in when the system may show audible problems. Since I don't listen much to R1/2 (and never on DAB) I can't pass any comment on them one way or the other. Well I can, and they sound ****e, and it is unfair that they sound ****e while R3 uses a 50% higher bit rate. Only a fascist would disagree. FWIW in terms of *video* I have certainly seen very 'odd' effects at times on BBCTV4 via DTTV. e.g. I have DVD+R's of one prom where the 'live' sic broadcast has a picture that 'stutters' throughout a large part of the broadcast, but where the late-night repeat is fine. I assume this was variable rate statmux stealing bitrate from BBCTV4 Probably. The BBC never alter the stat-mux bit rate allocations, which is incredibly lazy, IMO. during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat. Would not surprise me if similar 'audio' crudities turned up on DAB at times. I thought you were talking about video? -- Steve - www.digitalradiotech.co.uk - Digital Radio News & Info Find the cheapest Freeview, DAB & MP3 Player Prices: http://www.digitalradiotech.co.uk/fr..._receivers.htm http://www.digitalradiotech.co.uk/da...tal_radios.htm http://www.digitalradiotech.co.uk/mp...rs_1GB-5GB.htm http://www.digitalradiotech.co.uk/mp...e_capacity.htm |
DAB R3 balance
In article , DAB sounds worse than
FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The difficulty is that doesn't necessarily lead to your conclusion. Common sense dictates that it does. I'm afraid that would only be so if the 'common sense' does not take into acount the distinctions I was outlining. :-) Hence it would be like the 'common sense' that sometimes causes people to say all kinds of things which may turn out to be incorrect. I am wary of conclusions "dictated" by "common sense" as this often turns out to be a poor guide. The spectral components present in any time frame may extend across a wider range, and be more unform in size. But if the *number* of components that are resolved in the time frame are sigificantly less, then the 'weeding' process may lose less info. Impossible to assess this without much more specific info than simply observing a tendency for the components that are present to have similar levels, etc. Hence I think the point you make is certainly an important one, but it may not establish the conclusion you draw without more specific evidence. What I've heard over the last 3 years tell me that I'm right. Or rather, leads you to *believe* you are right. :-) Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. I cannot prove this with absolute certainty, but it's beyond reasonable doubt IMO. I note your opinion, but am trying to distinguish between opinions and matters of fact. If you can justify that to yourself as being fair then the only conclusion I can come to is that you're extremely selfish. Can't really comment on what may be 'fair' here. Just have an interest in when the system may show audible problems. Since I don't listen much to R1/2 (and never on DAB) I can't pass any comment on them one way or the other. Well I can, and they sound ****e, and it is unfair that they sound ****e while R3 uses a 50% higher bit rate. Only a fascist would disagree. Your comment seem to be in the spirit of the 'Ken Livingstone' school of scientific discussion. :-) FWIW in terms of *video* I have certainly seen very 'odd' effects at times on BBCTV4 via DTTV. e.g. I have DVD+R's of one prom where the 'live' sic broadcast has a picture that 'stutters' throughout a large part of the broadcast, but where the late-night repeat is fine. I assume this was variable rate statmux stealing bitrate from BBCTV4 Probably. The BBC never alter the stat-mux bit rate allocations, which is incredibly lazy, IMO. during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat. Would not surprise me if similar 'audio' crudities turned up on DAB at times. I thought you were talking about video? Depends what comments I made that you are referring to. I have made some comments about the sound of R3 on 'Freeview'. I have made some comments about the sound of BBCTV4 on Freeview. I have also made a comment about the *video* on BBCTV4 on Freeview. How these may be related, though, I am unsure. Only generalisation is that they all involve data-reduction 'compression' systems to communicate the information. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
DAB R3 balance
Jim Lesurf wrote:
In article , DAB sounds worse than FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The difficulty is that doesn't necessarily lead to your conclusion. The spectral components present in any time frame may extend across a wider range, and be more unform in size. But if the *number* of components that are resolved in the time frame are sigificantly less, then the 'weeding' process may lose less info. Impossible to assess this without much more specific info than simply observing a tendency for the components that are present to have similar levels, etc. Hence I think the point you make is certainly an important one, but it may not establish the conclusion you draw without more specific evidence. Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. An interesting experiment is to encode some CD material into VBR MP3 at a given quality level. That way the MP3 encoder chooses what bit rate to use to achieve the given level of quality on a frame-by-frame basis. If you want to compare results with me then do the following: * download Lame v3.90.3: http://www.hydrogenaudio.org/forums/...howtopic=28123 * I use RazorLame as a front-end GUI, which you can find he http://www.dors.de/razorlame/download.php * overwrite lame.exe in the RazorLame folder with lame.exe that you downloaded with Lame v3.90.3 above * then in Lame Options in RazorLame use the VBR presets on he http://www.hydrogenaudio.org/forums/...howtopic=28124 --alt-preset standard --alt-preset- extreme Do this by going to the Expert tab, entering one of the above into the Custom options edit box and tick Only use custom options. Theoretically, the higher the average bit rate the more difficult that piece of music is to encode to a given level of quality. -- Steve - www.digitalradiotech.co.uk - Digital Radio News & Info Find the cheapest Freeview, DAB & MP3 Player Prices: http://www.digitalradiotech.co.uk/fr..._receivers.htm http://www.digitalradiotech.co.uk/da...tal_radios.htm http://www.digitalradiotech.co.uk/mp...rs_1GB-5GB.htm http://www.digitalradiotech.co.uk/mp...e_capacity.htm |
DAB R3 balance
In article , DAB sounds worse than
FM wrote: Jim Lesurf wrote: Hence I think the point you make is certainly an important one, but it may not establish the conclusion you draw without more specific evidence. Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. An interesting experiment is to encode some CD material into VBR MP3 at a given quality level. That way the MP3 encoder chooses what bit rate to use to achieve the given level of quality on a frame-by-frame basis. If you want to compare results with me then do the following: Erm... what OS, etc, are you assuming I am using? :-) * download Lame v3.90.3: [snip] You would need to direct me at a version that runs under RO on an ARM-core CPU and which can be verified to act identically to the one you use. However even if that were done and I had the time to try it... It isn't clear to me what value the process you suggest would have w.r.t the issues we were discussing in terms of the differences between what the BBC do for R1/2 and R3. If you wish to support your argument for that then I'd assume you need to do so in terms of the specifics of the BBC signals and waveforms. The snag being that to do so you ideally may need access to the originals before they were level compressed and data reduced. AIUI your point was based on argueing that the R1/R2 typical signals have a more unform and flatter spectrum. My point was that it may also depend on the number of spectral components, not just the uniformity and range of those present. Without access to the BBC original waveforms and their level compression, etc, how would my attempting to use Lame establish this? Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
DAB R3 balance
Jim Lesurf wrote:
In article , DAB sounds worse than FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Jim Lesurf wrote: In article , DAB sounds worse than FM wrote: Because Radios 1 & 2 and all the pop stations have audio processing applied then the spectrum tends to be wide and flat, which tends to result in aa lot of remaining frequency components after the psychoacoustic model has produced the masking curves to throw away the inaudible subbands. Is that the case in the timescales relevant for the data reduction 'frames' (or whatever the correct term is)? I can see that R1/2 tend to use audio 'compression' (in the old sense) and this may work to flatten the medium term power spectrum. However that does not in itself mean the spectrum is 'white' if it has a finite number of components. Nor does it necessarily mean that each individual processed time-frame will have a near uniform power spectral density. Do you have some data on this relevant to R1/2? No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The difficulty is that doesn't necessarily lead to your conclusion. Common sense dictates that it does. I'm afraid that would only be so if the 'common sense' does not take into acount the distinctions I was outlining. :-) Hence it would be like the 'common sense' that sometimes causes people to say all kinds of things which may turn out to be incorrect. I am wary of conclusions "dictated" by "common sense" as this often turns out to be a poor guide. I couldn't give a flying fk whether you're wary of such conclusions or if you're madly in love with them. The spectral components present in any time frame may extend across a wider range, and be more unform in size. But if the *number* of components that are resolved in the time frame are sigificantly less, then the 'weeding' process may lose less info. Impossible to assess this without much more specific info than simply observing a tendency for the components that are present to have similar levels, etc. Hence I think the point you make is certainly an important one, but it may not establish the conclusion you draw without more specific evidence. What I've heard over the last 3 years tell me that I'm right. Or rather, leads you to *believe* you are right. :-) Absolutely it does. Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. I cannot prove this with absolute certainty, but it's beyond reasonable doubt IMO. I note your opinion, but am trying to distinguish between opinions and matters of fact. The fact that I cannot prove this does not mean that I am just going to drop this view; which just happens to be exactly what you would like me to do. If you can justify that to yourself as being fair then the only conclusion I can come to is that you're extremely selfish. Can't really comment on what may be 'fair' here. Just have an interest in when the system may show audible problems. Since I don't listen much to R1/2 (and never on DAB) I can't pass any comment on them one way or the other. Well I can, and they sound ****e, and it is unfair that they sound ****e while R3 uses a 50% higher bit rate. Only a fascist would disagree. Your comment seem to be in the spirit of the 'Ken Livingstone' school of scientific discussion. :-) Suits me. FWIW in terms of *video* I have certainly seen very 'odd' effects at times on BBCTV4 via DTTV. e.g. I have DVD+R's of one prom where the 'live' sic broadcast has a picture that 'stutters' throughout a large part of the broadcast, but where the late-night repeat is fine. I assume this was variable rate statmux stealing bitrate from BBCTV4 Probably. The BBC never alter the stat-mux bit rate allocations, which is incredibly lazy, IMO. during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat. Would not surprise me if similar 'audio' crudities turned up on DAB at times. I thought you were talking about video? Depends what comments I made that you are referring to. Correct me if I'm wrong, but all of this seemed to be to do with TV/video: "FWIW in terms of video I have certainly seen very 'odd' effects at times on BBCTV4 via DTTV. e.g. I have DVD+R's of one prom where the 'live' sic broadcast has a picture that 'stutters' throughout a large part of the broadcast, but where the late-night repeat is fine. I assume this was variable rate statmux stealing bitrate from BBCTV4 during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat." I have made some comments about the sound of R3 on 'Freeview'. I have made some comments about the sound of BBCTV4 on Freeview. I have also made a comment about the *video* on BBCTV4 on Freeview. How these may be related, though, I am unsure. Well, you were the bloody one making all the various points, so if you don't know what point you were trying to make then how the bloody hell should I know? Only generalisation is that they all involve data-reduction 'compression' systems to communicate the information. Give the man a Nobel prize. BTW, you seem to be entering pedant mode, again. If at all possible, please don't enter said mode again. TIA. -- Steve - www.digitalradiotech.co.uk - Digital Radio News & Info Find the cheapest Freeview, DAB & MP3 Player Prices: http://www.digitalradiotech.co.uk/fr..._receivers.htm http://www.digitalradiotech.co.uk/da...tal_radios.htm http://www.digitalradiotech.co.uk/mp...rs_1GB-5GB.htm http://www.digitalradiotech.co.uk/mp...e_capacity.htm |
DAB R3 balance
In article , DAB sounds worse than
FM wrote: Jim Lesurf wrote: No data; I've just looked at a lot of spectra. I know it's not white, but it's a hell of a lot flatter and broader for R1/2 than R3. R3 tends to tail-off quickly, whereas R1/2 tails-off significantly slower and for the vast majority of the time it goes right the way up to the brickwall filter. The difficulty is that doesn't necessarily lead to your conclusion. Common sense dictates that it does. I'm afraid that would only be so if the 'common sense' does not take into acount the distinctions I was outlining. :-) Hence it would be like the 'common sense' that sometimes causes people to say all kinds of things which may turn out to be incorrect. I am wary of conclusions "dictated" by "common sense" as this often turns out to be a poor guide. I couldn't give a flying fk whether you're wary of such conclusions or if you're madly in love with them. I am also not particularly concerned by you making such comments. :-) [snip] Not saying you are wrong. Just saying 'dunno', but 'not proven' simply from what you have said. I cannot prove this with absolute certainty, but it's beyond reasonable doubt IMO. I note your opinion, but am trying to distinguish between opinions and matters of fact. The fact that I cannot prove this does not mean that I am just going to drop this view; Fair enough. That's your prerogative. People believe all kinds of things. Just as I and others are free to make our own decisions. which just happens to be exactly what you would like me to do. I'm afraid you are moving into the realms of imagination here... :-) So far as I am concerned, you are free to believe whatever you wish. What I was indicating was that to accept your view I would need suitable evidence and explanations dealing with the relevant points. Up to you if you choose to beleive something without providing such. Also up to you if you don't care what view I adopt. However by asking the questions I have, others can read what I have written, see your responses, and make up their own minds as to the reliability of your opinions. That seems fair enough to me. People can make up their minds as they see fit on the basis of the evidence presented, and assess your views in the light of your comments to/about me. [snip] during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat. Would not surprise me if similar 'audio' crudities turned up on DAB at times. I thought you were talking about video? Depends what comments I made that you are referring to. Correct me if I'm wrong, but all of this seemed to be to do with TV/video: "FWIW in terms of video I have certainly seen very 'odd' effects at times on BBCTV4 via DTTV. e.g. I have DVD+R's of one prom where the 'live' sic broadcast has a picture that 'stutters' throughout a large part of the broadcast, but where the late-night repeat is fine. I assume this was variable rate statmux stealing bitrate from BBCTV4 during the evening to give to some other station(s), but a higher rate being available after midnight for the repeat." I have made some comments about the sound of R3 on 'Freeview'. I have made some comments about the sound of BBCTV4 on Freeview. I have also made a comment about the *video* on BBCTV4 on Freeview. How these may be related, though, I am unsure. Well, you were the bloody one making all the various points, so if you don't know what point you were trying to make then how the bloody hell should I know? Perhaps by reading the various postings I have made with more care? You might then realise why your comment here is misdirected. :-) Only generalisation is that they all involve data-reduction 'compression' systems to communicate the information. Give the man a Nobel prize. Don't bother with the medal. Just send me the cash that goes with it. 8-] BTW, you seem to be entering pedant mode, again. If at all possible, please don't enter said mode again. TIA. Are you a member of a 'pedant mode' branch of the 'net police'? :-) Sorry if you are offended by the way I ask questions and make points. If you can deal with them in a reasoned way I'd be interested in your replies. But if you can't answer, or dislike them, or my style of writing, then it is open to you to ignore them and make no reply. You may find, though, that if you do become employed in R&D areas of engineering/science then what seems to you to be a 'pedant mode' on my part is not only common in such areas, but an expected approach for the necessary rigour. I'm afraid that having to justify/support your ideas with evidence and reasoning that survives critical questioning is often unavoidable in such areas of work. TBH I feel you would find that people would find your views and arguments more persuasive if you kept to engaging in a polite and reasoned discussion. Switching to being abusive or dismissive or arrogant is, I fear, unlikely to convince many people. Particularly those who have any background in the relevant areas of engineering or science and who expect well reasoned arguments based on reliable evidence. You have said you have specific knowledge of these areas, and the main point you made seemed a reasonable and interesting one to me. For all I know it may be entirely justified. Therefore I am dissapointed that instead of providing useful replies to my own comments/questions you switch to being abusive/ dismissive. I was hoping for more informative replies as I had expected you could provide the info I was asking for. It would be interesting to know if your thesis *is* correct. However your replies here simply show that you are convinced of this and offended that anyone doubt the correctness of your opinions. But I still have no idea if you are actually correct or not. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
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