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#81
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Sun, 22 Jul 2007 20:09:19 -0700, Arny Krueger wrote
(in article ): "Peter Wieck" wrote in message MY OPINION ONLY FOLLOWS: As it happens now, there are three "high end industries", one consisting of long lines of vastly over-priced, poorly made but very well packaged Chinese goods attempting to cash in on the yiches of tubes and so forth. Agreed. There is the "Name Brand" section of the industry that does what it can to convince one that price actually drives quality in a linear relationship (it doesn't, of course), Agreed, but it may overlap industry number one. and then there is that part of the industry that has very nearly vanished... the actual cutting edge of wild (mostly) individuals and small groups who are actually trying to make something better and different vs. repackaging old designs with more-or-less chrome, fancy wood trim and matte-finish plexiglas detailing. Also agreed. 99-44/100ths percent of the stuff developed by the first two groups is sold to individuals who would not know a transistor from a triode or a toroid from a taurus. Interestingly enough, some of them think that they are extremely well-educated. As I showed for example in another post where someone tried to pontificate expertly about Slew Rate Distortion and Dielectric Absorbtion, their knowlege is often obsolete, based on that which has been proven to be urban myth, or they just plain have things wrong. I think that's a matter of opinion. I know, for instance, that Belcher and Hirata very ably addressed these distortions and methodologies to measure them back in the 1980's. Various postings found by "googling TIM and SID bring up many pages of which the following URL is representative: http://hyperphysics.phy-astr.gsu.edu...audio/amp.html So if these distortion types are, indeed myths as you assert, there are an awful lot of electrical engineers (not excluding yours, truly) who haven't been told about it. I also know that before these distortion types were characterized, solid-state amplifiers, especially, were virtually unlistenable, and after these distortion types were "discovered" and the limitations in amplifier design which gave rise to them were overcome, that solid-state amplifiers became much less objectionable. Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. They would not understand bias, Class A, AB, AB1 and so forth other than the flash and hype sold to them in the showroom. Nor would they understand specifications with specific reference to what they *DO NOT* mean. Also agreed. That last 56/100ths will be purchased by those, whatever it might be, who in short order start to wonder what all the fuss is about. And in nearly equally short order, they will start to concentrate on the output from the third class of suppliers. And this class also and generally publishes their output such that a reasonably skilled and patient person might duplicate them for him or her self. And this last class is anathema to the first two groups. I call this the "High Performance Audio" segment of the market. These people are often well enough heeled, and tend to own high performance cars, high performance cameras, guns and other techno-esoterica. While they may have signficiant investments in audio, they don't seem to gravitate to the most expensive components, with the possible exception of loudspeakers. I agree with that. So, yeah, the majority industry as it is now constituted is something between a farce and a joke, about as honest as a career politician with the general ethics of an archbishop. Some who have posted on this thread have even mentioned some of the high priests of high farce audio. With that in mind, none of us have the means or the right to dictate what is 'good' or 'bad' to someone else or their ears. I don't find that this follows from the premises presented. It doesn't. The sound of real music in real space is the only "real" goal here. It is simply not important that different people might perceive live music differently. If a system were to sound exactly like live music, it would sound like live music to everyone, irrespective of how he or she perceives it because the music itself consists of certain physical elements that exist in space whether there is anyone there to hear it of not. Individual perception does not enter in to the existence of those physical elements. If those elements are reproduced exactly, then anyone who has ever heard live music would recognize that perfect reproduction for what it is. It wouldn't matter, that a clarinet, for instance, always sounds like a trombone to you or a flute to me. If that clarinet is reproduced perfectly, both you and I will recognize that fact irrespective of the differences in our perception of it. |
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#82
Posted to rec.audio.high-end
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Blind testing: the epistemology
There is much going on here, and much that is vastly oversimplified.
Please note the strong infusion of opinion in the interpolations below. Sure, there IS a standard for "Good Audio Taste" but it's predicated upon a fairly narrow set of criteria 1) The "Absolute Sound" refers, of course, to the sound of real, live music, played in real space (as opposed to some nebulous notion of "it sounds good"). That may well be true. But it is far too simplistic to apply to *most* real-world situations. Removing entirely for discussion purposes all music that is 'reinforced' when delivered live, most venues where it is delivered are not able to be duplicated in the average listening room. It may well be coming from a "real space", but with very few exceptions that space is not the space where an electronic version of it will be delivered again. 2) The purpose of "High-Fidelity" is to recreate, in the listener's space the sound of this "real music, played in real space" in as close an approximation as is technologically possible. This is a complicated way of saying that "high-fidelity" equipment should as closely as possible deliver back *exactly* what is put into it, with the only deliberate and inherent difference possible being "volume". For the sake of clarity, that means all settings "flat" means IN = OUT +/- volume-only. 3) That this goal is the ONLY goal of High-Fidelity sound reproduction and the industry that supports it. And here is where vast over-simplification applies. That may be the goal, but it cannot, by definition, be the only one. Were that the case, the "Industry" would require that every user of its products understand deeply the science of acoustics, the effect of their listening space on the sound they achieve, and a bunch more things that they mostly and carefully and deliberately ignore... excepting those that also design "listening rooms". And they would also (if honest) make sure that any user understood that unless he/she had the means to build a rather large and nearly acoustically perfect listening venue, Symphonic music would be impossible to achieve in small rooms. Period. Too much stuff going on otherwise... One might get close with very-nearly-perfect headphones, but otherwise, not hardly. One of the things the Industry *must* also do is create means for their users to overcome the damage to the "absolute" sound created by the recording and mastering process, the delivery process and finally the reproducing process in whatever venue that might be. Just as if all roads were perfectly banked, perfectly smooth and perfectly curved, and all other drivers were equally perfect, vehicles would not need springs or shock-absorbers and a host of other items made to overcome the imperfections of the everyday environment. So, we have tone/equalizers, balance controls and other electronic means to alter the shape of the sound. OTOH, this is likely not the average Joe's goal at all. Many people who buy audio systems have never heard (or actually paid any attention to - or, indeed, even care about) live music. Most people's perception of live music is a rock band heard through sound reinforcement equipment and herein lies the fallacy of the above. If your goal is a system which sounds like a rock concert, then the above lofty set of goals means nothing because sound reinforcement equipment is not designed to be accurate. Of course, then we get into the area of contention which says that the sound system that a rock group uses IS that rock roup's "Absolute Sound" and if one's playback system doesn't sound like the PA system that the group uses on the road, then it's not reproducing the group the way one would hear it in the flesh. Yes, absolutely. Again the premise is vastly over-simplified. Any home- audio system should be capable of very-nearly reproducing what was put into it. The computer term GIGO applies equally to symphonic music and to highly compressed rock music... what goes in should come out, if garbage goes in, so should it come out. If the system cannot do this, it cannot be "High Fidelity". Then of course, one would need a different sounding system for each rock group's recordings being played. Quite a can of worms. This is so wrong in so many ways as to be absolutely fascinating as an approach to "High Fidelity". Listening to a live concert of real musicians playing real acoustic instruments in real space is a common experience that all can share equally. Assuming that as the criteria for establishing goals for an industry striving to make equipment to reproduce music seems a logical course. After all, a rigid set of criteria for any endeavor is needed, if for no other reason than to be a point of departure. Remember, a man walking in a blinding snow storm which deprives him of references will ALWAYS walk in circles. If you are going to limit your universe of "High Fidelity" equipment to that which is only capable of reproducing acoustic instruments under certain conditions, there is absolutely nothing wrong with that approach except that you must consider that much Acoustic Music has a much higher Peak-to-Average such that it is far harder for any given system to reproduce it than the average compressed R&R source. Saint- Saens and his Organ Symphony, if properly recorded, with a (sustained) 30dB P/A in the last movement is the acid-test for any reasonable system. Any system capable of making that at a reasonable volume without turning it into mud is more than capable of fully and completely reproducing _any_ R&R Album ever recorded. As to the snow thing, well... not always. Those trained (properly) in the military will march in a straight line as they have been trained to compensate for their 'strong side'. But you have taken many words to convey the simplest of concepts: Let the equipment from the microphone in the concert venue to the speakers in the listening venue come as close as possible to putting out what was put in. _ANYTHING_ more than that is the purest of speculation on the part of the designer/engineer and also then entirely *and necessarily* within the realm of "taste" on the part of a listener. They either like it or they don't. Now, move on a few seconds and allow the complication of 'impossibility' to color your opinions. Due to multiple potential failure-points between the initial 'playing' of the music and the actual delivery of the music to the listener, what gets out at the south end of the chain is very most likely not much better than the first cousin of what went into the north end. And what happens to what comes out at the south end once it hits the listening venue adds further potential failure points. So, it is all very well to write in absolutes.... but those absolutes are simply not real. Holding them dear "in principle" precludes one _ever_ achieving even reasonable sound 'at home'. It gets down to what we like in the end. We (my wife and I) go to perhaps a dozen (at least) sometimes more live musical events in a given year. Many are entirely unreinforced... no mike, no speakers, no- nothing... small-venue events with perhaps a half-dozen (or less) individuals in the room, listeners included. Some are large concerts in a large hall or open-air venue. What we listen to at home has the means to convey the emotion, color and intensity of what we hear 'live', but we would never fool ourselves into believing that it is 'the same thing'. Now in response to another post, there is equipment that manages to "test" very well yet sounds like glass in a blender. The Dynaco ST-120 is a favorite culprit here, and quite often taken as the 'representative' SS amp for all arguments between tube and SS... it ain't necessarily so. And that entirely apart from citing a kit- designed item which, just like the Saturn 5B rocket consists of a bunch of parts all supplied by the lowest bidder and (at best) assembled by (relatively experienced) Drexel students on piecework, at worst by ham-handed consumers with acid-flux solder. Due to the _MANY_ design compromises and flaws in its early years, it blew up with great enthusiasm, early and often. Others similarly of the era had similar problems. Now, and at the same time, if the ST-120 is the representative sample of "high-end" SS equipment, I would posit that the Trabant should be the representative sample for the "high-end" Automobile. Just keep in mind that when the ST-120 was released, Tube Equipment was coming off more than 40 years of evolution. What is wonderous about it all is that Tube stuff has about stayed still, SS stuff has moved on considerable. Please pass the Sno-Balls. Peter Wieck Wyncote, PA p.s. Just to clarify my position, here is a brief list of active equipment in our households (two houses): Amplification: Scott LK-150 ** Dynaco ST-70 * Dynaco ST-35 ** Harmon-Kardon Citation 16 * Integrated: Dynaco SCA-35 AR AU amp ** Revox B251 * Dynaco SCA-80Q HK Citation integrated tube amp on the bench being restored. Pre-Amp: Dynaco PAS-3 * HK Citation 17 Revox A720 ** Dynaco PAT-4 Dynaco PAT-5bifet Receiver: AR Model W and model R Receivers (one *) CD: Yamaha 5-disc changer * Philips (Holland) 5-disc changer Revox B225 ** Original 'very first' Sony discman w/transformer pack adaptor. (bench- test unit) ** Cassette: Revox B215 * HK2000 Tascam 3-head TT: Rabco ST6 * Rabco ST8 Revox B790 ** Revox B795 R/R Revox A77 "road deck" (amp & speakers included). * Speakers: AR3a ** AR4x AR M5 AR Athena sub-sat (vanishingly few were made before AR was shut down by Jensen). ** Revox Picollo sub-sat AR TSW 110 * AR 622 active sub-sat system (bench-test unit) * Tuners: AR tuner ** Dynaco FM-3 heavily modifed * Dynaco FM-3 full-factory Dynaco FM-5 Dynaco AF-6 (repeat) Revox A720 ** HK-500 HK Citation 15 Grundig Satellit 700 (OK, a full-band portable radio with a very nice stereo FM 'front end'). ** Of that bunch, about the only thing that I would consider by any measure "high end" in terms of what is commonly perceived as such would be the Revox A720. Seems like a lot, but there are at-present no less than five (5) active systems which are constantly changing. Ask me for line-up in 6 months, and only those items marked * are certain. In a year, ** |
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#83
Posted to rec.audio.high-end
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Blind testing: the epistemology
"George Graves" wrote in message
On Sun, 22 Jul 2007 20:09:19 -0700, Arny Krueger wrote (in article ): Interestingly enough, some of them think that they are extremely well-educated. As I showed for example in another post where someone tried to pontificate expertly about Slew Rate Distortion and Dielectric Absorbtion, their knowlege is often obsolete, based on that which has been proven to be urban myth, or they just plain have things wrong. I think that's a matter of opinion. I know, for instance, that Belcher and Hirata very ably addressed these distortions and methodologies to measure them back in the 1980's. That was then, this is now. Various postings found by "googling TIM and SID bring up many pages of which the following URL is representative: http://hyperphysics.phy-astr.gsu.edu...audio/amp.html Just because its on the web doesn't mean that it is true or even accepted by anybody but the page's author. So if these distortion types are, indeed myths as you assert, there are an awful lot of electrical engineers (not excluding yours, truly) who haven't been told about it. It is true that education is always an unsolved problem. I also know that before these distortion types were characterized, solid-state amplifiers, especially, were virtually unlistenable, Simply not true. and after these distortion types were "discovered" and the limitations in amplifier design which gave rise to them were overcome, that solid-state amplifiers became much less objectionable. Fact is that classic power amps such as the Crown DC300 are still in use in professional applications, and within their power and load-handling limits, sound pretty darn good. Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. I don't know about the other two, but I have a Dyna 120 (from eBay) that appears to have 100% original parts, and still 100% meets its original specs on the test bench. I challenge anybody to pick it out in a straight-wire bypass test with a difficult speaker load in a blind test. I use it as part of a casual music listening system driving a pair of KEF speakers. It sounds good. It doesn't. The sound of real music in real space is the only "real" goal here. But you've already agreed that this is an impossble goal. It is simply not important that different people might perceive live music differently. Yes, lets that be your straw man, not mine. If a system were to sound exactly like live music, it would sound like live music to everyone, irrespective of how he or she perceives it because the music itself consists of certain physical elements that exist in space whether there is anyone there to hear it of not. I agree with that, and its a very good point. Individual perception does not enter in to the existence of those physical elements. If those elements are reproduced exactly, then anyone who has ever heard live music would recognize that perfect reproduction for what it is. It wouldn't matter, that a clarinet, for instance, always sounds like a trombone to you or a flute to me. If that clarinet is reproduced perfectly, both you and I will recognize that fact irrespective of the differences in our perception of it. Are you saying that the concept of "good to your ears" is not all that relevant, because an accurate sound system would sound lifelike to everybody? |
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#84
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 20, 7:20 pm, "Arny Krueger" wrote:
I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. Statistics can't help that. -Mike |
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#85
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 21, 8:45 am, "Arny Krueger" wrote:
Mike wrote: They are based on the brain being able to construct a conscious experience out of that signal. Not necessarily. DBTs don't make any assumptions about how sound is perceived, only that its perceptions have results that can be perceived. An ABX test requires the test subject to consciously choose X=A or X=B. Therefore it depends on being able to construct a conscious experience. Mike |
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#86
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Tue, 24 Jul 2007 07:54:55 -0700, Arny Krueger wrote
(in article ): "George Graves" wrote in message On Sun, 22 Jul 2007 20:09:19 -0700, Arny Krueger wrote (in article ): Interestingly enough, some of them think that they are extremely well-educated. As I showed for example in another post where someone tried to pontificate expertly about Slew Rate Distortion and Dielectric Absorbtion, their knowlege is often obsolete, based on that which has been proven to be urban myth, or they just plain have things wrong. I think that's a matter of opinion. I know, for instance, that Belcher and Hirata very ably addressed these distortions and methodologies to measure them back in the 1980's. That was then, this is now. Various postings found by "googling TIM and SID bring up many pages of which the following URL is representative: http://hyperphysics.phy-astr.gsu.edu...audio/amp.html Just because its on the web doesn't mean that it is true or even accepted by anybody but the page's author. So if these distortion types are, indeed myths as you assert, there are an awful lot of electrical engineers (not excluding yours, truly) who haven't been told about it. It is true that education is always an unsolved problem. I also know that before these distortion types were characterized, solid-state amplifiers, especially, were virtually unlistenable, Simply not true. Very true. Transistor amps in those days sounded hard, gritty and fuzzy with tremendous amounts of odd-order distortion. Nasty sounding stuff. So bad that many listeners pulled their old tube amps back out of retirement because they couldn't stand the so-called "transistor sound". If early solid-state stuff didn't sound so bad, I expect that tubes would have gone away in the Hi-Fi field the way they went away in most other fields. The perception, "back when", that solid-state amplifiers and preamps were so bad is probably the reason why the tube industry is still with us and healthy (although the differences between a good tube amp and a good solid-state amp are fairly miniscule now, they still do exist and mostly show-up at the frequency extremes and clipping characteristics). and after these distortion types were "discovered" and the limitations in amplifier design which gave rise to them were overcome, that solid-state amplifiers became much less objectionable. Fact is that classic power amps such as the Crown DC300 are still in use in professional applications, and within their power and load-handling limits, sound pretty darn good. I think that both of the Crown amps, the DC150 and the DC300 were among the worst sounding amplifiers I've ever heard. Add to them the companion IC150 pre-amp and you have good-looking but simply atrocious sounding music system. Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. I don't know about the other two, but I have a Dyna 120 (from eBay) that appears to have 100% original parts, and still 100% meets its original specs on the test bench. I challenge anybody to pick it out in a straight-wire bypass test with a difficult speaker load in a blind test. I use it as part of a casual music listening system driving a pair of KEF speakers. It sounds good. I don't doubt that it meets specs. Of course, as usual, those specs have little or no correlation to how the amp actually sounds. The Dyna 120 is slow, has VISIBLE (on an o'scope) notch or crossover distortion and the 2N3055 output devices have woefully inadequate gain-bandwidth for the job. These output transistors were also being stressed to their ragged edge at the time, and Dynaco had to hand select them for V (sub) CEO (again IIRC). If you replaced them with off-the-shelf units available from the repair supply chain at the time, (instead of directly from Dynaco), they would promptly blow out taking the NPN/PNP driver pair (the numbers of which I've forgotten) with them. In fact, that was the usual failure mode for these amps (which is the reason that I also said that they were unreliable), but I digress. I have to say that I seriously must question the hearing acuity of anyone who thinks that any early transistor amps sounded acceptable and I would gladly accept the challenge to pick a Stereo 120 out in a bypass test. I sure listened to one long enough - when I first got out of college, my room mate had a Stereo 120 and a PAT-4 preamp driving a pair of Altec 15-inch co-axial speakers in home-made cabinets. The first SS amp that I heard that I thought sounded OK was one of Jim Bongiorno's G.A.S. "Ampzilla" amps. The first one I owned that I thought was OK was the original Hafler. Even the Hafler stuff sounded hard by modern standards, but I suspect that swapping-out capacitors in the audio path would solve at least some of that. It doesn't. The sound of real music in real space is the only "real" goal here. But you've already agreed that this is an impossble goal. It is simply not important that different people might perceive live music differently. Yes, lets that be your straw man, not mine. If a system were to sound exactly like live music, it would sound like live music to everyone, irrespective of how he or she perceives it because the music itself consists of certain physical elements that exist in space whether there is anyone there to hear it of not. I agree with that, and its a very good point. Individual perception does not enter in to the existence of those physical elements. If those elements are reproduced exactly, then anyone who has ever heard live music would recognize that perfect reproduction for what it is. It wouldn't matter, that a clarinet, for instance, always sounds like a trombone to you or a flute to me. If that clarinet is reproduced perfectly, both you and I will recognize that fact irrespective of the differences in our perception of it. Are you saying that the concept of "good to your ears" is not all that relevant, because an accurate sound system would sound lifelike to everybody? I'm saying that an accurate (read that "perfect", a goal that we all agree is impossible) audio system would sound like real music and that fact would be apparent to anyone who knows the difference between live and reproduced music, their own hearing peculiarities notwithstanding. Since everything a person hears is "filtered" by their own auditory performance and perception, they would hear both live music and canned the same way. If they notice the difference between live music and reproduced music, then a perfect system would sound like live music to them just as it would to anyone else with different hearing performance and perceptions. Notice that the single criterion that I have imposed is that the person be able to distinguish live music from reproduced. If one's hearing is so faulty that one can not do that, then of course, the point is moot. The concept of "good to your ears" is generally not relevant unless the phrase means "sounds close to live music to me." People who think that loose, thumpy, one-note bass and strident, piercing highs sound "good to their ears" are totally irrelevant to this conversation because making the music sound real is obviously not their goal. They're certainly welcome to their opinion, just don't expect anyone who knows better to share it. |
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#87
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 22, 10:43 am, George Graves wrote:
Sure, there IS a standard for "Good Audio Taste" but it's predicated upon a fairly narrow set of criteria 1) The "Absolute Sound" refers, of course, to the sound of real, live music, played in real space (as opposed to some nebulous notion of "it sounds good"). Yeah, right. This is the same Absolute Sound that, in a review of some piece of equipment, stated that it was so detailed that, on a recording of a harpsichord, the reviewer could clearly distinguish the difference in the heights of the strings between the lower and upper keyboards. What was clear is that this reviewer had never seen or heard a live harpsichord. The is the same Absolute Sound that had Enid Lumley, or whatever her name was, one of the people least in touch with the sound of live music, at least as indicated by her, well "writing," if it could be justified as such. Absolute Sound can be held responsible as a major force in retarding the art and technology of sound reproduction indeed as a firce far removed form the reproduction of music instead concentrating on the physical and emotional jewelry of high-end audio. |
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#88
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Tue, 24 Jul 2007 07:51:15 -0700, Peter Wieck wrote
(in article ): There is much going on here, and much that is vastly oversimplified. Please note the strong infusion of opinion in the interpolations below. Sure, there IS a standard for "Good Audio Taste" but it's predicated upon a fairly narrow set of criteria 1) The "Absolute Sound" refers, of course, to the sound of real, live music, played in real space (as opposed to some nebulous notion of "it sounds good"). That may well be true. But it is far too simplistic to apply to *most* real-world situations. Removing entirely for discussion purposes all music that is 'reinforced' when delivered live, most venues where it is delivered are not able to be duplicated in the average listening room. It may well be coming from a "real space", but with very few exceptions that space is not the space where an electronic version of it will be delivered again. 2) The purpose of "High-Fidelity" is to recreate, in the listener's space the sound of this "real music, played in real space" in as close an approximation as is technologically possible. This is a complicated way of saying that "high-fidelity" equipment should as closely as possible deliver back *exactly* what is put into it, with the only deliberate and inherent difference possible being "volume". For the sake of clarity, that means all settings "flat" means IN = OUT +/- volume-only. 3) That this goal is the ONLY goal of High-Fidelity sound reproduction and the industry that supports it. And here is where vast over-simplification applies. That may be the goal, but it cannot, by definition, be the only one. Were that the case, the "Industry" would require that every user of its products understand deeply the science of acoustics, the effect of their listening space on the sound they achieve, and a bunch more things that they mostly and carefully and deliberately ignore... excepting those that also design "listening rooms". And they would also (if honest) make sure that any user understood that unless he/she had the means to build a rather large and nearly acoustically perfect listening venue, Symphonic music would be impossible to achieve in small rooms. Period. Too much stuff going on otherwise... One might get close with very-nearly-perfect headphones, but otherwise, not hardly. One of the things the Industry *must* also do is create means for their users to overcome the damage to the "absolute" sound created by the recording and mastering process, the delivery process and finally the reproducing process in whatever venue that might be. Just as if all roads were perfectly banked, perfectly smooth and perfectly curved, and all other drivers were equally perfect, vehicles would not need springs or shock-absorbers and a host of other items made to overcome the imperfections of the everyday environment. So, we have tone/equalizers, balance controls and other electronic means to alter the shape of the sound. OTOH, this is likely not the average Joe's goal at all. Many people who buy audio systems have never heard (or actually paid any attention to - or, indeed, even care about) live music. Most people's perception of live music is a rock band heard through sound reinforcement equipment and herein lies the fallacy of the above. If your goal is a system which sounds like a rock concert, then the above lofty set of goals means nothing because sound reinforcement equipment is not designed to be accurate. Of course, then we get into the area of contention which says that the sound system that a rock group uses IS that rock roup's "Absolute Sound" and if one's playback system doesn't sound like the PA system that the group uses on the road, then it's not reproducing the group the way one would hear it in the flesh. Yes, absolutely. Again the premise is vastly over-simplified. Any home- audio system should be capable of very-nearly reproducing what was put into it. In this case, "very-nearly" means "not by a country mile". And, it's not even that simple. If one had a microphone feed of the very best available microphones set-up in a perfect stereo pair from a concert hall into one's listening room and one fed that feed through the best, most neutral-sounding electronics to the very best, most accurate loudspeakers available, it still wouldn't and couldn't sound anywhere close to the real thing. It would doubtless sound damned good, but it would be a poor second to actually being in the hall with nothing between the music and your ears except air. The computer term GIGO applies equally to symphonic music and to highly compressed rock music... what goes in should come out, if garbage goes in, so should it come out. If the system cannot do this, it cannot be "High Fidelity". The problem is that everything that goes in is "garbage" because even recordings aren't perfect facsimiles of the performance that they are capturing. Then of course, one would need a different sounding system for each rock group's recordings being played. Quite a can of worms. This is so wrong in so many ways as to be absolutely fascinating as an approach to "High Fidelity". Listening to a live concert of real musicians playing real acoustic instruments in real space is a common experience that all can share equally. Assuming that as the criteria for establishing goals for an industry striving to make equipment to reproduce music seems a logical course. After all, a rigid set of criteria for any endeavor is needed, if for no other reason than to be a point of departure. Remember, a man walking in a blinding snow storm which deprives him of references will ALWAYS walk in circles. If you are going to limit your universe of "High Fidelity" equipment to that which is only capable of reproducing acoustic instruments under certain conditions, there is absolutely nothing wrong with that approach except that you must consider that much Acoustic Music has a much higher Peak-to-Average such that it is far harder for any given system to reproduce it than the average compressed R&R source. Saint- Saens and his Organ Symphony, if properly recorded, with a (sustained) 30dB P/A in the last movement is the acid-test for any reasonable system. Any system capable of making that at a reasonable volume without turning it into mud is more than capable of fully and completely reproducing _any_ R&R Album ever recorded. You take things too literally. these are IDEALS and we understand them to be unobtainable. But the need to strive for them keeps the industry and, indeed, the hobby honest. You are also way-off base if you believe that a system which accurately reproduces acoustical instruments will not also accurately reproduce any instrument or ensembles of instruments. Perfect reproduction means just that, so electric guitars and pipe organs would be equally perfectly reproduced. As to the snow thing, well... not always. Those trained (properly) in the military will march in a straight line as they have been trained to compensate for their 'strong side'. But you have taken many words to convey the simplest of concepts: Let the equipment from the microphone in the concert venue to the speakers in the listening venue come as close as possible to putting out what was put in. _ANYTHING_ more than that is the purest of speculation on the part of the designer/engineer and also then entirely *and necessarily* within the realm of "taste" on the part of a listener. They either like it or they don't. Now, move on a few seconds and allow the complication of 'impossibility' to color your opinions. Due to multiple potential failure-points between the initial 'playing' of the music and the actual delivery of the music to the listener, what gets out at the south end of the chain is very most likely not much better than the first cousin of what went into the north end. And what happens to what comes out at the south end once it hits the listening venue adds further potential failure points. So, it is all very well to write in absolutes.... but those absolutes are simply not real. Holding them dear "in principle" precludes one _ever_ achieving even reasonable sound 'at home'. It gets down to what we like in the end. We (my wife and I) go to perhaps a dozen (at least) sometimes more live musical events in a given year. Many are entirely unreinforced... no mike, no speakers, no- nothing... small-venue events with perhaps a half-dozen (or less) individuals in the room, listeners included. Some are large concerts in a large hall or open-air venue. What we listen to at home has the means to convey the emotion, color and intensity of what we hear 'live', but we would never fool ourselves into believing that it is 'the same thing'. Neither would anybody else. But I think you miss the point here. It's not whether or not an audio system sounds like live music (it doesn't) it's whether or not SOME of the emotional connection with live music makes it through the chain. To do that, it is often necessary to introduce some colorations into the playback system to "simulate" in some way, that emotional connection. Why do you think that so many people believe that vinyl phonograph records sound more like live music than do CDs of the same performance? Obviously, the CD should be a lot less "colored" than a record with all of its mechanical components and the fact that it's adding another transducer into the chain. But many people find the colorations inherent in phono playback to be more consonant with live music. It's obviously not more accurate, but it provides something that makes these listeners feel closer to the real event. None of this means that the industry's goal shouldn't be perfection even though we all agree that such perfection is impossible. Now in response to another post, there is equipment that manages to "test" very well yet sounds like glass in a blender. The Dynaco ST-120 is a favorite culprit here, and quite often taken as the 'representative' SS amp for all arguments between tube and SS... it ain't necessarily so. I never said it was. I merely used it and the Citation 12 and the Acoustat 1 as representatives of an era where SS equipment measured great and sounded lousy. And that entirely apart from citing a kit- designed item which, just like the Saturn 5B rocket consists of a bunch of parts all supplied by the lowest bidder and (at best) assembled by (relatively experienced) Drexel students on piecework, at worst by ham-handed consumers with acid-flux solder. Due to the _MANY_ design compromises and flaws in its early years, it blew up with great enthusiasm, early and often. And I pointed out in another post, that was because the 2n3055 output transistors had to be hand-picked by Dynaco due to their marginal-for-the-job specifications. Also, the gain bandwidth of the transistors used was woefully inadequate for audio. Others similarly of the era had similar problems. The H-K Citation 12 being one of those. Now, and at the same time, if the ST-120 is the representative sample of "high-end" SS equipment, I would posit that the Trabant should be the representative sample for the "high-end" Automobile. There was no "high-end" as we now know it in those days. There was just "component" Hi-Fi and "brown goods". The "high-end" came about as a reaction, a backlash, if you will, to the horrible sound being perpetrated on an unsuspecting and unassuming public as the "new sound of transistors". It's the reason why tubes enjoyed a renaissance back in the seventies that they are still enjoying to this day even though there is probably little to choose between them in absolute terms. Just keep in mind that when the ST-120 was released, Tube Equipment was coming off more than 40 years of evolution. What is wonderous about it all is that Tube stuff has about stayed still, SS stuff has moved on considerable. I agree, good SS stuff today is almost indistinguishable from the best tube gear. In fact, I have 5 channel H-K A/V receiver (AVR-7000) in my video system that I could easily live with as my only source of music reproduction if circumstances dictated that I do so. Of course it was H-K's top of the line at the time and wasn't cheap at over $2000. The point is that here's a receiver, designed primarily for a surround system in a home theater, that sounds better than probably the best solid-state high-end amplifiers of just a decade or so earlier. Please pass the Sno-Balls. Nothing wrong with Sno-Balls. Always liked 'em. Peter Wieck Wyncote, PA p.s. Just to clarify my position, here is a brief list of active equipment in our households (two houses): Amplification: Scott LK-150 ** Dynaco ST-70 * Dynaco ST-35 ** Harmon-Kardon Citation 16 * Integrated: Dynaco SCA-35 AR AU amp ** Revox B251 * Dynaco SCA-80Q HK Citation integrated tube amp on the bench being restored. Pre-Amp: Dynaco PAS-3 * HK Citation 17 Revox A720 ** Dynaco PAT-4 Dynaco PAT-5bifet Receiver: AR Model W and model R Receivers (one *) CD: Yamaha 5-disc changer * Philips (Holland) 5-disc changer Revox B225 ** Original 'very first' Sony discman w/transformer pack adaptor. (bench- test unit) ** Cassette: Revox B215 * HK2000 Tascam 3-head TT: Rabco ST6 * Rabco ST8 Revox B790 ** Revox B795 R/R Revox A77 "road deck" (amp & speakers included). * Speakers: AR3a ** AR4x AR M5 AR Athena sub-sat (vanishingly few were made before AR was shut down by Jensen). ** Revox Picollo sub-sat AR TSW 110 * AR 622 active sub-sat system (bench-test unit) * Tuners: AR tuner ** Dynaco FM-3 heavily modifed * Dynaco FM-3 full-factory Dynaco FM-5 Dynaco AF-6 (repeat) Revox A720 ** HK-500 HK Citation 15 Grundig Satellit 700 (OK, a full-band portable radio with a very nice stereo FM 'front end'). ** Of that bunch, about the only thing that I would consider by any measure "high end" in terms of what is commonly perceived as such would be the Revox A720. Seems like a lot, but there are at-present no less than five (5) active systems which are constantly changing. Ask me for line-up in 6 months, and only those items marked * are certain. In a year, ** Wow! My circumstances are much more modest than that! Audio - active system: CD/SACD: Sony SCD-777ES Pre-amp: modified Audio Research SP-9 Mk III. Power amp(s): VTL 140 Monoblocks (Each uses six 807 transmitter tubes for outputs!). Speakers: Martin Logan Aeon i Hybrid Electrostatic/cone with two Sunfire Super Junior subs. R/R tape: Otari 5050 half-track, 15ips. DAT: Otari DTR-8s DVD burner: TASCAM CDRW-7000 Not currently in system: Tuner: Yamaha T-85 (my satellite receiver has Sirius Radio, see no need to listen to FM currently). Amps: 2- Denon POA-6600A class A monoblocks, 2- RockFord-Hafler P-1500 'TransNova" amps strapped to produce 400 Watts RMS. Other equipment includes previously mentioned H-K AVR-7000 receiver in home theater system. |
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#89
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Blind testing: the epistemology
On Jul 24, 6:00 pm, Mike wrote:
I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. This is just semantic nonsense. First of all, you do not "perceive" music. You perceive a stimulus, which your brain then *interprets* as music. Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, because "music" has no meaning in the physical world. It is entirely a social/cultural construct. The *perception* of music and the *perception* of sound are one and the same. If you have any evidence to the contrary, now would be a good time to present it. I'm not holding my breath. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. It sure might, and it often is. There's no reason you can't use different clips for each trial, or for different sets of trials within a single test. The latter approach is very useful for narrowing in on particularly revealing sounds. If you think this somehow doesn't work, you need to provide some evidence, or at least a plausible explanation. But remember that real scientists use this approach everyday. They don't pay much attention to pseudo-philosophers jabbering about "epistemology." bob |
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#90
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Blind testing: the epistemology
Mike wrote:
On Jul 20, 7:20 pm, "Arny Krueger" wrote: I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. You keep stating this as fact, when it's clearly not. In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B -- which one would expect to be a common complaint, if the 'problem' you propose really existed. The fact that people can *pass* ABX tests also militates against there being a 'problem' such as you cite. One would expect ABX results to be random, by your scenario -- rendering the test. They aren't.People tend to pass when measurable difference in level between musical samples rises above a dB or so, for example (discrimination is even better when test tones are used..suggesting that musical signals would be *worse* for discriminating difference between gear, not better). Statistics can't help that. They aren't needed to. ___ -S "As human beings, we understand the world through simile, analogy, metaphor, narrative and, sometimes, claymation." - B. Mason |
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#91
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Blind testing: the epistemology
Mike wrote:
On Jul 21, 8:45 am, "Arny Krueger" wrote: Mike wrote: They are based on the brain being able to construct a conscious experience out of that signal. Not necessarily. DBTs don't make any assumptions about how sound is perceived, only that its perceptions have results that can be perceived. An ABX test requires the test subject to consciously choose X=A or X=B. Therefore it depends on being able to construct a conscious experience. As does *any* verbalizable decision about the 'sound' of two pieces of gear. ___ -S "As human beings, we understand the world through simile, analogy, metaphor, narrative and, sometimes, claymation." - B. Mason |
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#92
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Blind testing: the epistemology
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#93
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Blind testing: the epistemology
On Jul 24, 4:28 pm, bob wrote:
On Jul 24, 6:00 pm, Mike wrote: I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. This is just semantic nonsense. First of all, you do not "perceive" music. You perceive a stimulus, which your brain then *interprets* as music. Any stimulus can be interpreted in multiple ways, as evidenced by optical illusions. Any stimulus has multiple aspects, each of which can be brought to conscious foreground or allowed to lie in background. Say we have a drawing of a person---you can regard it as an image of a person, or you can focus on line thickness and texture. So our stimulus for an audio DBT is music. Music has many aspects, including emotional tone, and things like "bright sound" and "dark sound" (i.e. a lot of highs or muted). And the list goes on endlessly. If you want to generalize the results of your DBT to normal listening, you have to show that the test subjects were able to perceive all significant aspects of the signal. This is almost certainly false, although the key point is that no evidence has been provided---it is simply assumed that as the test subject switches rapidly between A & B (to give one scenario) and tries to "zero in" on the difference, that all aspects of the signal are available to consciousness. That's a very poor assumption as evidenced by most psychological research. Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, because "music" has no meaning in the physical world. It is entirely a social/cultural construct. The *perception* of music and the *perception* of sound are one and the same. The *perception of a stimulus* as music and the *perception of a stimulus* as sound are different things. If you have any evidence to the contrary, now would be a good time to present it. I'm not holding my breath. If you'd like to provide evidence they are the same thing, I'm waiting. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. It sure might, and it often is. There's no reason you can't use different clips for each trial, or for different sets of trials within a single test. You misunderstand. Each time the listener SWITCHES back to A to check it against X. If that were a different signal each time, that's analogous to the situation we have. The latter approach is very useful for narrowing in on particularly revealing sounds. If you think this somehow doesn't work, you need to provide some evidence, or at least a plausible explanation. But remember that real scientists use this approach everyday. They don't pay much attention to pseudo-philosophers jabbering about "epistemology." Most smart people also know that in a debate, when you need to refer to your opponent with negative qualifiers, you don't have much of substance to say. Mike |
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#94
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 24, 4:29 pm, Steven Sullivan wrote:
Mike wrote: On Jul 20, 7:20 pm, "Arny Krueger" wrote: I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. You keep stating this as fact, when it's clearly not. Okay, let's see your explanation... In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B -- which one would expect to be a common complaint, if the 'problem' you propose really existed. To say that A is a different signal each time you switch back to it is an exaggeration, but shows the analogy. Now what's really going on is that A is *perceived* differently each time you switch back. This adds a kind of "noise" to the test. What you recognize each time you switch back to A is a perception that involves only some of the aspects of the signal. The unproven assumption is that the test subject somehow has every meaningful aspect of the signal available to consciousness, when that's not the case for even simple, common situations. However, the test subject certainly has *some* aspect of the signal available. "Brightness" or "darkness" would probably be a good example in many cases. So as long as the difference between A and B is large enough in an aspect which is available to consciousness, the test subject will pass. The fact that people can *pass* ABX tests also militates against there being a 'problem' such as you cite. One would expect ABX results to be random, by your scenario -- rendering the test. They aren't.People tend to pass when measurable difference in level between musical samples rises above a dB or so, for example (discrimination is even better when test tones are used..suggesting that musical signals would be *worse* for discriminating difference between gear, not better). Explanation above. -Mike |
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#95
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 25, 10:30 am, Mike wrote:
So our stimulus for an audio DBT is music. Music has many aspects, including emotional tone, and things like "bright sound" and "dark sound" (i.e. a lot of highs or muted). And the list goes on endlessly. If you want to generalize the results of your DBT to normal listening, you have to show that the test subjects were able to perceive all significant aspects of the signal. No, I don't. In fact, I can guarantee you that no subject of a listening test involving music EVER hears everything in the signal. But that's not unique to listening tests. No one who listens to music (or any complex sound) hears everything in the signal. That's due to a well-documented phenomenon called masking. Note that you have failed here to provide evidence that listening in a listening test is different from listening generally. This is almost certainly false, although the key point is that no evidence has been provided---it is simply assumed that as the test subject switches rapidly between A & B (to give one scenario) and tries to "zero in" on the difference, that all aspects of the signal are available to consciousness. That's a very poor assumption as evidenced by most psychological research. Given that you haven't cited a single shred of psychological research yet, this is a pretty ballsy thing to say. But, as I've just explained above, DBTs are fully consistent with that research. This should not surprised you, because the research is, of course, _based in part on DBTs._ Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, because "music" has no meaning in the physical world. It is entirely a social/cultural construct. The *perception* of music and the *perception* of sound are one and the same. The *perception of a stimulus* as music and the *perception of a stimulus* as sound are different things. Oh, dear. More vocabulary problems. You are simply misusing the word perception here. You "perceive" a stimulus. You then "interpret" that stimulus as music, or speech, or something else. You're trying to confuse the two concepts in order to bolster a false premise. It's not working. If you have any evidence to the contrary, now would be a good time to present it. I'm not holding my breath. If you'd like to provide evidence they are the same thing, I'm waiting. The ear-brain mechanism perceives sound as changes in air pressure. The ear-brain mechanism perceives musical sound as...what? You're telling me it's not changes in air pressure? Then what is it? Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. It sure might, and it often is. There's no reason you can't use different clips for each trial, or for different sets of trials within a single test. You misunderstand. Each time the listener SWITCHES back to A to check it against X. If that were a different signal each time, that's analogous to the situation we have. But it's not a different signal each time. It's the same signal. Do you not understand how a DBT works? The latter approach is very useful for narrowing in on particularly revealing sounds. If you think this somehow doesn't work, you need to provide some evidence, or at least a plausible explanation. But remember that real scientists use this approach everyday. They don't pay much attention to pseudo-philosophers jabbering about "epistemology." Most smart people also know that in a debate, when you need to refer to your opponent with negative qualifiers, you don't have much of substance to say. I'm afraid if you want my respect, you're going to have to earn it by providing some evidence for your so-far baseless assertions. Instead, all you've been able to do is play semantic games and misuse words. My point here was that scientists who have studied psychophysics extensively have determined that these tests are in fact quite robust. Now, that's an argument from authority, which I'll concede has its vulnerabilities. But all you've been able to muster in response is the unsupported assertion that DBTs are "invalid" because of "something about the experience of music" which you haven't shown to be unique either to music or to DBTs. IOW, you've been arguing from nothing more than your own authority--which is not recommended unless you have some. bob |
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#96
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 25, 10:31 am, Mike wrote:
On Jul 24, 4:29 pm, Steven Sullivan wrote: In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B -- which one would expect to be a common complaint, if the 'problem' you propose really existed. To say that A is a different signal each time you switch back to it is an exaggeration, No, it's an outright false statement. Do you not know the difference between an exaggeration and a false statement? Jeez, this vocabulary problem is worse than I imagined. but shows the analogy. Now what's really going on is that A is *perceived* differently each time you switch back. This adds a kind of "noise" to the test. What you recognize each time you switch back to A is a perception that involves only some of the aspects of the signal. The unproven assumption is that the test subject somehow has every meaningful aspect of the signal available to consciousness, when that's not the case for even simple, common situations. Leaving aside your continued muddling of terms and concepts, you haven't shown that this is in any way relevant, even if it were true. In particular, you never answered Arny's point that the same problem plagues you no matter how you try to evaluate audio equipment. If the "experience of music" changes every time you listen to it, how do you ever arrive at an assessment of what a component actually sounds like? Doesn't it keep changing? Haven't you just rendered the entire high- end pursuit pointless? But wait--it gets worse. As you yourself have conceded, our response to ANY stimulus changes each time we experience it. Not just music-- any sound, any sight, any taste, any smell. The crux of your "argument," if we were to take it seriously, would be that it is impossible for humans to understand anything about human perception, because human perception is inconstant. And yet, scientists have learned an amazing amount about human perception, and more particularly about human hearing. We've discovered a variety of thresholds for perception, for example. We've also discovered phenomena like masking--which, we should note, is a major reason why differences often fail to show up in listening tests involving music, where there is a variety of tones and harmonics all masking each other. Finally, I should point out that we know about thresholds and masking not only from a variety of types of listening tests, but also from anatomical analysis of the hearing mechanism--more reason to be quite certain that masking takes place when we are "experiencing music," just as much as when we are doing a DBT. bob |
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#97
Posted to rec.audio.high-end
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Blind testing: the epistemology
"Mike" wrote in message
On Jul 20, 7:20 pm, "Arny Krueger" wrote: I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. So, you don't see any connection between this and the effect of equipment on the perception of sounds? Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. Music is a kind of sound, so music is a subset of sound. It seems like limiting the discussion to just music is unecessarily narrow. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Say what? Almost every ABX test ever done was based on the listener's perceptions of sound as music, the claim that ABX testing is irrelevant to the perception of sound as music makes no sense at all. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. I sense that the figurative baby is being thrown out with the wash water. It is true that every perception is at least a little different, but this does not justify using a different test signal for every listening test. In other words, it might as well be a different clip of music each time you listen to A. This ignores the fact that listeners need the opportunity to improve their accuracy by learning a little more about the music and its effects on the equipment every time they listen to it. Statistics can't help that. Excluded middle argument noted. |
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#98
Posted to rec.audio.high-end
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Blind testing: the epistemology
Mike wrote:
On Jul 24, 4:29 pm, Steven Sullivan wrote: Mike wrote: On Jul 20, 7:20 pm, "Arny Krueger" wrote: I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. You keep stating this as fact, when it's clearly not. Okay, let's see your explanation... In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B -- which one would expect to be a common complaint, if the 'problem' you propose really existed. To say that A is a different signal each time you switch back to it is an exaggeration, but shows the analogy. Now what's really going on is that A is *perceived* differently each time you switch back. This adds a kind of "noise" to the test. What you recognize each time you switch back to A is a perception that involves only some of the aspects of the signal. The unproven assumption is that the test subject somehow has every meaningful aspect of the signal available to consciousness, when that's not the case for even simple, common situations. First, it is *your* unproven assertion that someone has to have 'every meaningful aspect of the signal available to consciousness' in order to identify sameness or difference of sound. That's an absurdly loaded statement, especially in that what constitutes 'meaningful' is not defined. Second, you are not limited to how many times you switch between A, B, and X, before you actually make a decision as to whether X is A or B. Not to mention that you repeat this process for every trial. Third, why would DBT work AT ALL for ANY reason, if 'all meaningful aspects' of the things under consideraton, had to be 'available to consciousness'. In a blind trial, there is one rather 'meaningful' -- in that it certainly can influence perception -- 'aspect' that is purposely hidden from the subject: that's the identity of the object under consideration (whether it's a drug, a piece of audio gear, or a musician auditioning for an orchestral seat). However, the test subject certainly has *some* aspect of the signal available. "Brightness" or "darkness" would probably be a good example in many cases. So as long as the difference between A and B is large enough in an aspect which is available to consciousness, the test subject will pass. "Brightness' and 'darkness' are terrible examples, unless you define what they mean -- such as, a range of treble frequencies, or bass frequencies. And yes, differences in EQ certainly ARE often ABX-able. The fact that people can *pass* ABX tests also militates against there being a 'problem' such as you cite. One would expect ABX results to be random, by your scenario -- rendering the test. They aren't.People tend to pass when measurable difference in level between musical samples rises above a dB or so, for example (discrimination is even better when test tones are used..suggesting that musical signals would be *worse* for discriminating difference between gear, not better). Explanation above. Your explanation parses to: some differences are big enough to heard. These are also likely to be differentiated in an ABX test. Yes, we know. ___ -S "As human beings, we understand the world through simile, analogy, metaphor, narrative and, sometimes, claymation." - B. Mason |
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#99
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Blind testing: the epistemology
"Mike" wrote in message
On Jul 21, 8:45 am, "Arny Krueger" wrote: Mike wrote: They are based on the brain being able to construct a conscious experience out of that signal. Not necessarily. DBTs don't make any assumptions about how sound is perceived, only that its perceptions have results that can be perceived. An ABX test requires the test subject to consciously choose X=A or X=B. Therefore it depends on being able to construct a conscious experience. All that is required is that the listener be conscious of his decision. He can reach that decision by conscious or unconscious means. |
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#100
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Blind testing: the epistemology
"George Graves" wrote in message
On Tue, 24 Jul 2007 07:54:55 -0700, Arny Krueger wrote (in article ): "George Graves" wrote in message On Sun, 22 Jul 2007 20:09:19 -0700, Arny Krueger wrote (in article ): Interestingly enough, some of them think that they are extremely well-educated. As I showed for example in another post where someone tried to pontificate expertly about Slew Rate Distortion and Dielectric Absorbtion, their knowlege is often obsolete, based on that which has been proven to be urban myth, or they just plain have things wrong. I think that's a matter of opinion. I know, for instance, that Belcher and Hirata very ably addressed these distortions and methodologies to measure them back in the 1980's. That was then, this is now. Various postings found by "googling TIM and SID bring up many pages of which the following URL is representative: http://hyperphysics.phy-astr.gsu.edu...audio/amp.html Just because its on the web doesn't mean that it is true or even accepted by anybody but the page's author. So if these distortion types are, indeed myths as you assert, there are an awful lot of electrical engineers (not excluding yours, truly) who haven't been told about it. It is true that education is always an unsolved problem. I also know that before these distortion types were characterized, solid-state amplifiers, especially, were virtually unlistenable, Simply not true. Very true. Just saying its so does not prove a thing. Transistor amps in those days sounded hard, gritty and fuzzy with tremendous amounts of odd-order distortion. You mentiones some specific amps, and I've measured the distortion in many of them over the years. As I mentioned I have a sample of one of the allegedly worst-sounding amps around - the Dyna ST-120. The levels and kinds of distortion you mention was not characteristic of them. As a rule, they had less odd-order distortion than the better tubed amps of the day. Nasty sounding stuff. So goes the urban legend. So bad that many listeners pulled their old tube amps back out of retirement because they couldn't stand the so-called "transistor sound". Speaking as one such person, what made me regress to tubes was the reliability situation for very early germanium output power amps, which was very poor until silicon transistors became readily available. The amps you previously mentioned all used silicon transistors, as does the ST-120. If early solid-state stuff didn't sound so bad, I expect that tubes would have gone away in the Hi-Fi field the way they went away in most other fields. They did. I don't think that SS amps killed off tubed amps quite as fast as CDs killed off vinyl, but tubed equipment dropped out of the mainstream quickly enough. The perception, "back when", that solid-state amplifiers and preamps were so bad is probably the reason why the tube industry is still with us and healthy It is a heathy tiny niche, particularly if you ignore tubed MI equipment. (although the differences between a good tube amp and a good solid-state amp are fairly miniscule now, they still do exist and mostly show-up at the frequency extremes and cipping characteristics). The main difference between tubed and SS power amps is the tremendous price/performance advantage of the latter. Ever price a 2,000 watt tubed power amp? came much less objectionable. Most SS power amps of quality level mid-fi or better will pass a straight wire bypass test with any reasonable load. Only a minority of tubed power amps will pass a straight wire bypass test with a tough but reasonble speaker load. Fact is that classic power amps such as the Crown DC300 are still in use in professional applications, and within their power and load-handling limits, sound pretty darn good. I think that both of the Crown amps, the DC150 and the DC300 were among the worst sounding amplifiers I've ever heard. That's your opinon and you have every right to keep it. Fact of the matter is that those amps are still found in professional use, from time to time. I've heard them many times over the years, and other than their slightly limited reactive load-handling abilites, they sound fine. Add them to the companion IC150 pre-amp and you have good-looking but simply atrocious sounding music system. I don't have any recent experience with the IC150, but when it was new I heard it in some fine-sounding systems. Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. I don't know about the other two, but I have a Dyna 120 (from eBay) that appears to have 100% original parts, and still 100% meets its original specs on the test bench. I challenge anybody to pick it out in a straight-wire bypass test with a difficult speaker load in a blind test. I use it as part of a casual music listening system driving a pair of KEF speakers. It sounds good. I don't doubt that it meets specs. Of course, as usual, those specs have little or no correlation to how the amp actually sounds. Easy to say, but also easy to disprove. The Dyna 120 is slow, has VISIBLE (on an o'scope) notch or crossover distortion and the 2N3055 output devices have woefully inadequate gain-bandwidth for the job. That must have been a broken Dyna 120, as detailed tests show no crossover notches on my ST120. The test equipment used for the tests had residuals in the 0.001% range. These output transistors were also being stressed to their ragged edge at the time, and Dynaco had to hand select them for V (sub) CEO (again IIRC). If you replaced them with off-the-shelf units available from the repair supply chain at the time, (instead of directly from Dynaco), they would promptly blow out taking the NPN/PNP driver pair (the numbers of which I've forgotten) with them. Interesting how my amp survived with factory outputs. It continues to survive driving some speakers that actually constitute a tough load, being rather reactive and dipping well below 4 ohms within the normal audio range. In fact, that was the usual failure mode for these amps (which is the reason that I also said that they were unreliable), but I digress. I have to say that I seriously must question the hearing acuity of anyone who thinks that any early transistor amps sounded acceptable and I would gladly accept the challenge to pick a Stereo 120 out in a bypass test. You're safe because your posting IP address traces to one coast or the other, and I'm in the midwest. I sure listened to one long enough - when I first got out of college, my room mate had a Stereo 120 and a PAT-4 preamp driving a pair of Altec 15-inch co-axial speakers in home-made cabinets. A composite system - so you don't know which part of it made sound bad. The first SS amp that I heard that I thought sounded OK was one of Jim Bongiorno's G.A.S. "Ampzilla" amps. The first one I owned that I thought was OK was the original Hafler. Even the Hafler stuff sounded hard by modern standards, but I suspect that swapping-out capacitors in the audio path would solve at least some of that. Capacitor magic - another one of those urban audiophile myths. Individual perception does not enter in to the existence of those physical elements. If those elements are reproduced exactly, then anyone who has ever heard live music would recognize that perfect reproduction for what it is. It wouldn't matter, that a clarinet, for instance, always sounds like a trombone to you or a flute to me. If that clarinet is reproduced perfectly, both you and I will recognize that fact irrespective of the differences in our perception of it. Are you saying that the concept of "good to your ears" is not all that relevant, because an accurate sound system would sound lifelike to everybody? I'm saying that an accurate (read that "perfect", a goal that we all agree is impossible) audio system would sound like real music and that fact would be apparent to anyone who knows the difference between live and reproduced music, their own hearing peculiarities notwithstanding. Agreed. Since everything a person hears is "filtered" by their own auditory performance and perception, they would hear both live music and canned the same way. If they notice the difference between live music and reproduced music, then a perfect system would sound like live music to them just as it would to anyone else with different hearing performance and perceptions. Notice that the single criterion that I have imposed is that the person be able to distinguish live music from reproduced. If one's hearing is so faulty that one can not do that, then of course, the point is moot. Agreed. The concept of "good to your ears" is generally not relevant unless the phrase means "sounds close to live music to me." People who think that loose, thumpy, one-note bass and strident, piercing highs sound "good to their ears" are totally irrelevant to this conversation because making the music sound real is obviously not their goal. They're certainly welcome to their opinion, just don't expect anyone who knows better to share it. Agreed. |
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#101
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Blind testing: the epistemology
Steven Sullivan wrote:
In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B... You must be joking. Many abx trials result in the listener being unable to distinguish X as A or B. How many abx trials have you proctored? |
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#102
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Blind testing: the epistemology
nabob wrote:
This is just semantic nonsense. First of all, you do not "perceive" music. You perceive a stimulus, which your brain then *interprets* as music. This can't be proven, because it is opinion stated as fact. It is comparable to the claim, "If a tree falls in the forest and no one is there, it does not make a sound." Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, Again, opinion stated as fact. Arguably, perception certainly does change dependent on the nature of sound, and music is based on that premise. because "music" has no meaning in the physical world. It is entirely a social/cultural construct. This is false. In fact, music exists in the physical world completely independent of humankind. Can you think of a few examples? remember that real scientists use this approach everyday. They don't pay much attention to pseudo-philosophers jabbering about "epistemology." If you want to align yourself with "real scientists," you might confine your remarks to "real science," rather than engage in the sort of jabbering and pseudo-philosophizing to which you object. |
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#103
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Blind testing: the epistemology
On Jul 25, 7:11 pm, "c. leeds" wrote:
nabob wrote: This is just semantic nonsense. First of all, you do not "perceive" music. You perceive a stimulus, which your brain then *interprets* as music. This can't be proven, because it is opinion stated as fact. I'm not stating it as a fact. I'm defining terms. In particular, I'm pointing out that my interlocutor is using the word "perception" in an ambiguous, and ultimately misleading, way in order to bolster a flawed argument. It is comparable to the claim, "If a tree falls in the forest and no one is there, it does not make a sound." Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, Again, opinion stated as fact. Arguably, perception certainly does change dependent on the nature of sound, and music is based on that premise. Arguably? I'd like to see that argument. Does the ear work differently? Does the resulting nerve signal encode the frequency and amplitude of the sound differently? Pray tell us how this works. because "music" has no meaning in the physical world. It is entirely a social/cultural construct. This is false. In fact, music exists in the physical world completely independent of humankind. Can you think of a few examples? No, I can't think of any examples, because there aren't any. Nothing is music until some human says, that is music. Note that different cultures have different definitions of music. For that matter, different musicologists have different definitions of music. Whereas scientists agree on what sound is, for example. remember that real scientists use this approach everyday. They don't pay much attention to pseudo-philosophers jabbering about "epistemology." If you want to align yourself with "real scientists," you might confine your remarks to "real science," rather than engage in the sort of jabbering and pseudo-philosophizing to which you object. Philosophizing? Moi? No, I'm trying to carry on a technical conversation with someone (maybe now more than one) who resolutely refuses to acknowledge that it IS a technical conversation. bob |
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#104
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Blind testing: the epistemology
On Wed, 25 Jul 2007 16:07:43 -0700, Arny Krueger wrote
(in article ): "George Graves" wrote in message On Tue, 24 Jul 2007 07:54:55 -0700, Arny Krueger wrote (in article ): "George Graves" wrote in message On Sun, 22 Jul 2007 20:09:19 -0700, Arny Krueger wrote (in article ): Interestingly enough, some of them think that they are extremely well-educated. As I showed for example in another post where someone tried to pontificate expertly about Slew Rate Distortion and Dielectric Absorbtion, their knowlege is often obsolete, based on that which has been proven to be urban myth, or they just plain have things wrong. I think that's a matter of opinion. I know, for instance, that Belcher and Hirata very ably addressed these distortions and methodologies to measure them back in the 1980's. That was then, this is now. Various postings found by "googling TIM and SID bring up many pages of which the following URL is representative: http://hyperphysics.phy-astr.gsu.edu...audio/amp.html Just because its on the web doesn't mean that it is true or even accepted by anybody but the page's author. So if these distortion types are, indeed myths as you assert, there are an awful lot of electrical engineers (not excluding yours, truly) who haven't been told about it. It is true that education is always an unsolved problem. I also know that before these distortion types were characterized, solid-state amplifiers, especially, were virtually unlistenable, Simply not true. Very true. Just saying its so does not prove a thing. Transistor amps in those days sounded hard, gritty and fuzzy with tremendous amounts of odd-order distortion. You mentiones some specific amps, and I've measured the distortion in many of them over the years. As I mentioned I have a sample of one of the allegedly worst-sounding amps around - the Dyna ST-120. The levels and kinds of distortion you mention was not characteristic of them. As a rule, they had less odd-order distortion than the better tubed amps of the day. Nasty sounding stuff. So goes the urban legend. So bad that many listeners pulled their old tube amps back out of retirement because they couldn't stand the so-called "transistor sound". Speaking as one such person, what made me regress to tubes was the reliability situation for very early germanium output power amps, which was very poor until silicon transistors became readily available. The amps you previously mentioned all used silicon transistors, as does the ST-120. If early solid-state stuff didn't sound so bad, I expect that tubes would have gone away in the Hi-Fi field the way they went away in most other fields. They did. I don't think that SS amps killed off tubed amps quite as fast as CDs killed off vinyl, but tubed equipment dropped out of the mainstream quickly enough. The perception, "back when", that solid-state amplifiers and preamps were so bad is probably the reason why the tube industry is still with us and healthy It is a heathy tiny niche, particularly if you ignore tubed MI equipment. It's not so tiny. I suspect there are as many manufacturers of tube gear out there as there are of transistor stuff. Just off the top of my head: Audio Research Vacuum Tube Logic Manley VAC Cayin Cary Conrad Johnson Atmosphere and at least a score more. But these are probably the major ones. (although the differences between a good tube amp and a good solid-state amp are fairly miniscule now, they still do exist and mostly show-up at the frequency extremes and cipping characteristics). The main difference between tubed and SS power amps is the tremendous price/performance advantage of the latter. Ever price a 2,000 watt tubed power amp? Not lately. But OTOH, who needs 2000 watts in their home audio system? Yeah, tube equipment can be pricey. My VTL 140s were about six grand a pair when new (and that was in the early nineties). But they do something that SS equipment doesn't do so well. They hold their value. came much less objectionable. Most SS power amps of quality level mid-fi or better will pass a straight wire bypass test with any reasonable load. Only a minority of tubed power amps will pass a straight wire bypass test with a tough but reasonble speaker load. I think most modern amps of either stripe are probably very low in coloration. But if I were to guess, I would suspect a well-designed tube amp to do somewhat better in that regard due to the fact that most tube gear is MUCH simpler, with fewer active components, than has an "equivalent" SS amp. Fact is that classic power amps such as the Crown DC300 are still in use in professional applications, and within their power and load-handling limits, sound pretty darn good. I think that both of the Crown amps, the DC150 and the DC300 were among the worst sounding amplifiers I've ever heard. That's your opinon and you have every right to keep it. Fact of the matter is that those amps are still found in professional use,from time to time. Professional use? You mean sound reinforcement? Since when is that a recommendation for sound quality? Robustness, yes; power output, yes. But sound quality? I don't think so. I've heard them many times over the years, and other than their slightly limited reactive load-handling abilites, they sound fine. I'm beginning to suspect that our respective definitions of what sounds "fine" are wildly different. :- Add them to the companion IC150 pre-amp and you have good-looking but simply atrocious sounding music system. I don't have any recent experience with the IC150, but when it was new I heard it in some fine-sounding systems. I had one. The heart of it was an LM-301 op amp which sported, if memory serves, something like 1v/microsecond slew rate and an asymmetrical slew to boot. I finally replaced it with a pin-compatible LF-357 op amp (a Bi-Fet design) with symmetrical slew rate of more than 50 v/microsecond and a bandwidth of more than 20 MegaHertz Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. I don't know about the other two, but I have a Dyna 120 (from eBay) that appears to have 100% original parts, and still 100% meets its original specs on the test bench. I challenge anybody to pick it out in a straight-wire bypass test with a difficult speaker load in a blind test. I use it as part of a casual music listening system driving a pair of KEF speakers. It sounds good. I don't doubt that it meets specs. Of course, as usual, those specs have little or no correlation to how the amp actually sounds. Easy to say, but also easy to disprove. Not by me. The Dyna 120 is slow, has VISIBLE (on an o'scope) notch or crossover distortion and the 2N3055 output devices have woefully inadequate gain-bandwidth for the job. That must have been a broken Dyna 120 Then they were all broken , as detailed tests show no crossover notches on my ST120. The test equipment used for the tests had residuals in the 0.001% range. Take a 400 Hz test tone run it through the amp with a dummy load at a fairly low level. Put a 'scope on the output, sync it and crank up the sensitivity at the zero-crossing point. You'll see it. This was first demonstrated to me by no less than Bob Orban of Orban Associates (designer of the Optimod and other broadcast signal processing equipment). These output transistors were also being stressed to their ragged edge at the time, and Dynaco had to hand select them for V (sub) CEO (again IIRC). If you replaced them with off-the-shelf units available from the repair supply chain at the time, (instead of directly from Dynaco), they would promptly blow out taking the NPN/PNP driver pair (the numbers of which I've forgotten) with them. Interesting how my amp survived with factory outputs. It continues to survive driving some speakers that actually constitute a tough load, being rather reactive and dipping well below 4 ohms within the normal audio range. In fact, that was the usual failure mode for these amps (which is the reason that I also said that they were unreliable), but I digress. I have to say that I seriously must question the hearing acuity of anyone who thinks that any early transistor amps sounded acceptable and I would gladly accept the challenge to pick a Stereo 120 out in a bypass test. You're safe because your posting IP address traces to one coast or the other, and I'm in the midwest. Well, while that's true, its not why I agreed. I'm that confident that I could tell the difference. I sure listened to one long enough - when I first got out of college, my room mate had a Stereo 120 and a PAT-4 preamp driving a pair of Altec 15-inch co-axial speakers in home-made cabinets. A composite system - so you don't know which part of it made sound bad. That's an assumption on your part. When I replaced the ST-120 with a Marantz 9 that I bought used (tubes), the sound improved considerably. When I further replaced the Dyna PAT-4 with a Acrosound Preamp (also tubed) the rest of the nastiness went away. Of course, the Altecs still sounded like crap, but that's another issue (could never figure out how a 15" speaker in a cabinet built from Altec's own "application notes" could have so little bass). The first SS amp that I heard that I thought sounded OK was one of Jim Bongiorno's G.A.S. "Ampzilla" amps. The first one I owned that I thought was OK was the original Hafler. Even the Hafler stuff sounded hard by modern standards, but I suspect that swapping-out capacitors in the audio path would solve at least some of that. Capacitor magic - another one of those urban audiophile myths. Not at all a myth. Swapping out capacitors in the audio path with low DA types like Wonder caps or Sidereal caps makes a tremendous, and instantly noticeable difference. Walt Jung did extensive research in this area in the late 1970's and his results are fairly well described (if in a somewhat abbreviated fashion) at the following Tiny URL. http://tinyurl.com/3dr97v His work in this area is seminal and widely acknowledged (just not by you, apparently :-). I first heard the difference when a friend of mine swapped out the crossover network caps in what were then my Magnaplanar Tympani 3's (I was a skeptical non-believer, he insisted, so I let him do the swap. The caps are very accessible on Maggies and no harm would be done). The audible distortion level dropped so dramatically that it was astonishing. Since then I've modified preamps (like the Citation I and and the AR SP3) and power amps (McIntosh 260's, for instance) as well as numerous CD players' analog stages, with incredible results. Individual perception does not enter in to the existence of those physical elements. If those elements are reproduced exactly, then anyone who has ever heard live music would recognize that perfect reproduction for what it is. It wouldn't matter, that a clarinet, for instance, always sounds like a trombone to you or a flute to me. If that clarinet is reproduced perfectly, both you and I will recognize that fact irrespective of the differences in our perception of it. Are you saying that the concept of "good to your ears" is not all that relevant, because an accurate sound system would sound lifelike to everybody? I'm saying that an accurate (read that "perfect", a goal that we all agree is impossible) audio system would sound like real music and that fact would be apparent to anyone who knows the difference between live and reproduced music, their own hearing peculiarities notwithstanding. Agreed. Since everything a person hears is "filtered" by their own auditory performance and perception, they would hear both live music and canned the same way. If they notice the difference between live music and reproduced music, then a perfect system would sound like live music to them just as it would to anyone else with different hearing performance and perceptions. Notice that the single criterion that I have imposed is that the person be able to distinguish live music from reproduced. If one's hearing is so faulty that one can not do that, then of course, the point is moot. Agreed. The concept of "good to your ears" is generally not relevant unless the phrase means "sounds close to live music to me." People who think that loose, thumpy, one-note bass and strident, piercing highs sound "good to their ears" are totally irrelevant to this conversation because making the music sound real is obviously not their goal. They're certainly welcome to their opinion, just don't expect anyone who knows better to share it. Agreed. |
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#105
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Blind testing: the epistemology
On Jul 25, 9:55 am, bob wrote:
On Jul 25, 10:30 am, Mike wrote: So our stimulus for an audio DBT is music. Music has many aspects, including emotional tone, and things like "bright sound" and "dark sound" (i.e. a lot of highs or muted). And the list goes on endlessly. If you want to generalize the results of your DBT to normal listening, you have to show that the test subjects were able to perceive all significant aspects of the signal. No, I don't. In fact, I can guarantee you that no subject of a listening test involving music EVER hears everything in the signal. But that's not unique to listening tests. No one who listens to music (or any complex sound) hears everything in the signal. That's due to a well-documented phenomenon called masking. I'm not talking about masking which occurs at a fairly low level in the perceptual mechanism, well before consciousness. Rather, the problem is that you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness. Note that you have failed here to provide evidence that listening in a listening test is different from listening generally. You haven't provided evidence they are the same. It's obvious that people put their attention on different things in different situations, and most people describe that their listening changes to an analytical mode in a listening test. Listening to something many times is a very "strong" context in the sense that it has known effects on how we perceive music. So I'm waiting to see some evidence that particular listening test conditions make all significant aspects of the signal available to consciousness. This is almost certainly false, although the key point is that no evidence has been provided---it is simply assumed that as the test subject switches rapidly between A & B (to give one scenario) and tries to "zero in" on the difference, that all aspects of the signal are available to consciousness. That's a very poor assumption as evidenced by most psychological research. Given that you haven't cited a single shred of psychological research yet, this is a pretty ballsy thing to say. http://answers.google.com/answers/threadview?id=490946 But, as I've just explained above, DBTs are fully consistent with that research. This should not surprised you, because the research is, of course, _based in part on DBTs._ Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, because "music" has no meaning in the physical world. It is entirely a social/cultural construct. The *perception* of music and the *perception* of sound are one and the same. The *perception of a stimulus* as music and the *perception of a stimulus* as sound are different things. Oh, dear. More vocabulary problems. You are simply misusing the word perception here. You "perceive" a stimulus. You then "interpret" that stimulus as music, or speech, or something else. You're trying to confuse the two concepts in order to bolster a false premise. It's not working. What's curious is that you have a very well defined epistemology yourself, but don't have an interest in investigating it. Your use of these words, and your conception of perception, are your personal theories. Actually, you can't perceive something separately from your interpretation of it. Research in hypnosis shows this, for example. If you have any evidence to the contrary, now would be a good time to present it. I'm not holding my breath. If you'd like to provide evidence they are the same thing, I'm waiting. The ear-brain mechanism perceives sound as changes in air pressure. The ear-brain mechanism perceives musical sound as...what? You're telling me it's not changes in air pressure? Then what is it? I'm talking about the process of forming the conscious impression, and whether you've focused your attention on the music or on the sound. If you are listening for musical feelings and expressiveness, that's a different way of using your attention than listening for brightness/ darkness. You need to prove this is NOT true if you wish to claim generality of a particular blind test. Mike |
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#106
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Blind testing: the epistemology
On Jul 25, 9:59 am, Steven Sullivan wrote:
Mike wrote: On Jul 24, 4:29 pm, Steven Sullivan wrote: Mike wrote: On Jul 20, 7:20 pm, "Arny Krueger" wrote: I thought that we were discussing differences in the sound reproduction abilities of various pieces of equipment, not the perception of music. I'm interested in the effect of equipment on the perception of _music_. Music comes in through sound; but the _perception_ of sound as music and the _perception_ of sound as sound are two different things. Conventional ABX testing is almost totally irrelevant to the perception of sound as music. Since the test signal is perceived differently each time you listen, you might as well use different test signals each time you listen. In other words, it might as well be a different clip of music each time you listen to A. You keep stating this as fact, when it's clearly not. Okay, let's see your explanation... In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B -- which one would expect to be a common complaint, if the 'problem' you propose really existed. To say that A is a different signal each time you switch back to it is an exaggeration, but shows the analogy. Now what's really going on is that A is *perceived* differently each time you switch back. This adds a kind of "noise" to the test. What you recognize each time you switch back to A is a perception that involves only some of the aspects of the signal. The unproven assumption is that the test subject somehow has every meaningful aspect of the signal available to consciousness, when that's not the case for even simple, common situations. First, it is *your* unproven assertion that someone has to have 'every meaningful aspect of the signal available to consciousness' in order to identify sameness or difference of sound. That's an absurdly loaded statement, especially in that what constitutes 'meaningful' is not defined. Actually, this statement makes explicit something that scientists normally keep implicit. Yes, it's hard to define "meaningful", but the scientist solves that by never making the concept explicit. Whenever you make a recommendation for or against a piece of equipment based on a blind test, you are implicitly referring to your belief that the test subject heard all the aspects of the signal that are part of a normal listening experience. |
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#107
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Blind testing: the epistemology
c. leeds wrote:
Steven Sullivan wrote: In an ABX, X *must* be either A or B. The listener knows this going into the test. I can't recall people ever complaining that X was unrecognizable as either A or B... You must be joking. Many abx trials result in the listener being unable to distinguish X as A or B. You must not be understanding what I wrote. I'm not saying they couldn't tell whether X was A OR B. I'm talking about someone saying X is neither A NOR B. If they claim that, then the test would be stopped right there. How many abx trials have you proctored? Several. You? ___ -S "As human beings, we understand the world through simile, analogy, metaphor, narrative and, sometimes, claymation." - B. Mason |
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#108
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Blind testing: the epistemology
On Jul 26, 7:43 pm, Mike wrote:
I'm not talking about masking which occurs at a fairly low level in the perceptual mechanism, well before consciousness. Rather, the problem is that you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness. Indeed. So your argument, I take it, is that DBT results aren't generalizable to other listening situations because, unlike in those situations, in a DBT "you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." The trouble with this argument is that it contains a flawed premise. I.e., that in other listening situations, you do NOT "have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." In fact, you've already implicitly admitted that this is a false premise, with your (narrowly correct, in this case) claim that we experience music differently each time we hear it. The very reason we experience it differently is that we concentrate on or note different aspects of the music. So, if we "concentrate on or note different aspects of the music" in DBTs, and we "concentrate on or note different aspects of the music" when we're aren't in DBTs, then how is a DBT different from other forms of listening? Once again, you've bolstered my argument, not yours. snip What's curious is that you have a very well defined epistemology yourself, Yes, I do. It's known colloquially as the scientific method. I gather you don't believe in it. but don't have an interest in investigating it. Your use of these words, and your conception of perception, are your personal theories. No, they are definitions that I've applied in order to demonstrate that you are using vague and misleading terminology, and trying to use the same word to mean different things, when it suits your "argument." snip I'm talking about the process of forming the conscious impression, and whether you've focused your attention on the music or on the sound. If you are listening for musical feelings and expressiveness, that's a different way of using your attention than listening for brightness/ darkness. You need to prove this is NOT true if you wish to claim generality of a particular blind test. You are asking me to prove a negative. Obviously, I cannot, and it is not my obligation to do so. You've made the assertion that there are "significant aspects of the signal" that are not "available to consciousness." You need to tell us what those "aspects" are, and why they are not "available," whatever that means. I do not advise that you try, for you will fail. bob |
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#109
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Blind testing: the epistemology
nabob wrote:
This is just semantic nonsense. First of all, you do not "perceive" music. You perceive a stimulus, which your brain then *interprets* as music. I answered: This can't be proven, because it is opinion stated as fact. nabaob answers: I'm not stating it as a fact. I'm defining terms. In particular, I'm pointing out... Sorry, but your emphatic assertion about "semantic nonsense" and your rigid insistence that we do not "perceive music" was clearly written as a statement of fact. It's fine if you now want to frame that as an opinion. nabob also claimed: Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, I answered: Again, opinion stated as fact. Arguably, perception certainly does change dependent on the nature of sound, and music is based on that premise. nabob answered: Arguably? I'd like to see that argument. Does the ear work differently? Does the resulting nerve signal encode the frequency and amplitude of the sound differently? Pray tell us how this works. You made the claim, you provide the proof. You can't, because you stated opinion as fact. My response, unlike your assertion, wasn't stated as fact. It's just an opinion. There's nothing to prove. nabob wrote: ..."music" has no meaning in the physical world. It is entirely a social/cultural construct. I answered: This is false. In fact, music exists in the physical world completely independent of humankind. Can you think of a few examples? nabob responds: No, I can't think of any examples, because there aren't any. Nothing is music until some human says, that is music. Well, again, that's your opinion. You're welcome to it. But music does exist outside of the human world. That you cling so tightly to your beliefs that you can't understand that is your problem. And since you reserve for yourself the right to define all terms, you can "prove" anything you like... but only to yourself. Philosophizing? Moi? No, I'm trying to carry on a technical conversation with someone (maybe now more than one) who resolutely refuses to acknowledge that it IS a technical conversation. Sorry, but you're not speaking technically. You're repeatedly insisting that your opinion be accepted by all as fact. |
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#110
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Blind testing: the epistemology
On Jul 26, 6:59 pm, bob wrote:
On Jul 26, 7:43 pm, Mike wrote: I'm not talking about masking which occurs at a fairly low level in the perceptual mechanism, well before consciousness. Rather, the problem is that you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness. Indeed. So your argument, I take it, is that DBT results aren't generalizable to other listening situations because, unlike in those situations, in a DBT "you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." The trouble with this argument is that it contains a flawed premise. I.e., that in other listening situations, you do NOT "have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." In fact, you've already implicitly admitted that this is a false premise, with your (narrowly correct, in this case) claim that we experience music differently each time we hear it. The very reason we experience it differently is that we concentrate on or note different aspects of the music. So, if we "concentrate on or note different aspects of the music" in DBTs, and we "concentrate on or note different aspects of the music" when we're aren't in DBTs, then how is a DBT different from other forms of listening? Once again, you've bolstered my argument, not yours. A basic fact about listening to music is that context affects what you can perceive. Musicians exploit this. MAGICians exploit this too in the visual realm. Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw and for a demonstration how you can completely miss important signals if you are tied up looking for something else: http://answers.google.com/answers/threadview?id=490946 In the face of evidence like this, the burden is on DBT advocates to show that they _don't_ skew perception, if they wish us to believe they are relevant to other listening contexts. snip What's curious is that you have a very well defined epistemology yourself, Yes, I do. It's known colloquially as the scientific method. I gather you don't believe in it. Believing that "perceiving" and "interpreting" a signal are independent is not science. The article about hypnosis above contradicts this. In fact, your position is anti-scientific. From your own experience, it seems to you that "perceiving" and "interpreting" are two separate things, so you then define the terms as you like and insist that's scientific, though you provide no evidence that "perceiving" and "interpreting" are two separate things. but don't have an interest in investigating it. Your use of these words, and your conception of perception, are your personal theories. No, they are definitions that I've applied in order to demonstrate that you are using vague and misleading terminology, and trying to use the same word to mean different things, when it suits your "argument." One of the semantic games you're playing is to insist that a concept have a precise definition or else it's not real. That's fine if we are talking about, say, organic chemistry, but when we are talking about the perception of music---sorry, nothing is precisely defined. In fact, when audio research takes as its premise that it will only investigate quantifiable things, then that research has much less relevance to music listening. snip I'm talking about the process of forming the conscious impression, and whether you've focused your attention on the music or on the sound. If you are listening for musical feelings and expressiveness, that's a different way of using your attention than listening for brightness/ darkness. You need to prove this is NOT true if you wish to claim generality of a particular blind test. You are asking me to prove a negative. I'm just asking you to provide some evidence in the face of all the reasons why DBT listening should skew perception that it does NOT skew perception. After all, that's what you assume when you make equipment recommendations based on DBT results. You're assuming this is true; now let's see you provide some evidence for it Obviously, I cannot, and it is not my obligation to do so. You've made the assertion that there are "significant aspects of the signal" that are not "available to consciousness." You need to tell us what those "aspects" are, and why they are not "available," whatever that means. The experiment with the gorilla above shows in a general way why this can happen. I'm not sure why you need to ask this question. Are you someone who's aware of everything presented to your senses all the time? I do not advise that you try, for you will fail. LOL. Mike |
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#111
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 26, 4:34 pm, bob wrote:
On Jul 25, 7:11 pm, "c. leeds" wrote: nabob wrote: This is just semantic nonsense. First of all, you do not "perceive" music. You perceive a stimulus, which your brain then *interprets* as music. This can't be proven, because it is opinion stated as fact. I'm not stating it as a fact. I'm defining terms. In particular, I'm pointing out that my interlocutor is using the word "perception" in an ambiguous, and ultimately misleading, way in order to bolster a flawed argument. It is comparable to the claim, "If a tree falls in the forest and no one is there, it does not make a sound." Perception doesn't change depending on the nature of the sound-- and it certainly doesn't change based on whether the souond is music or not, Again, opinion stated as fact. Arguably, perception certainly does change dependent on the nature of sound, and music is based on that premise. Arguably? I'd like to see that argument. Does the ear work differently? Does the resulting nerve signal encode the frequency and amplitude of the sound differently? Pray tell us how this works. Any definition of "perceive" that I can find involves "awareness". You have to be "aware" of something before you perceive it. And you are not aware of the signals traveling down the aural nerve. You are only aware of how you interpret those signals. Furthermore, the act of interpretation can change completely, right down to the lowest levels, depending on your intention and past experience: http://tinyurl.com/3aleg6 As one further note, you become aware of only a very small part of that information. A quick-switch DBT creates the illusion that you have all the information laid out in front of you, everything you need to make the comparison. Science contradicts that. I often think that DBT advocates are arguing from personal experience: their own experience that it "seems" to be valid when you carry it out. Mike |
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#112
Posted to rec.audio.high-end
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Blind testing: the epistemology
"George Graves" wrote in message
On Wed, 25 Jul 2007 16:07:43 -0700, Arny Krueger wrote (in article ): "George Graves" wrote in message On Tue, 24 Jul 2007 07:54:55 -0700, Arny Krueger wrote (in article ): It is a heathy tiny niche, particularly if you ignore tubed MI equipment. It's not so tiny. I suspect there are as many manufacturers of tube gear out there as there are of transistor stuff. Just off the top of my head: Audio Research Vacuum Tube Logic Manley VAC Cayin Cary Conrad Johnson Atmosphere The largest of these vendors probably make a few hundred pieces a year. Compare that to the jillions of pieces of solid state equipment that is sold for the purpose of reproducing music. No comparison! and at least a score more. But these are probably the major ones. There are no doubt manunfacturers of mainstream audio gear that make more equipment by accident than any of these major tubed equipment manufacturers make on purpose. (although the differences between a good tube amp and a good solid-state amp are fairly miniscule now, they still do exist and mostly show-up at the frequency extremes and cipping characteristics). The main difference between tubed and SS power amps is the tremendous price/performance advantage of the latter. Ever price a 2,000 watt tubed power amp? Not lately. I don't believe there ever was one on the regular commercial market. The biggest commercial tubed hi fi amp I know of was the 300 watt McIntosh, that attained popularity driving disc cutting lathes. But OTOH, who needs 2000 watts in their home audio system? Someone with very competent but inefficient subwoofers. I have two friends who had the need and filled it. Yeah, tube equipment can be pricey. My VTL 140s were about six grand a pair when new (and that was in the early nineties). But they do something that SS equipment doesn't do so well. They hold their value. Yes - audio is not about the enjoyment of music, it is about residual values for resale. Thanks for helping me clear that up! ;-) came much less objectionable. Most SS power amps of quality level mid-fi or better will pass a straight wire bypass test with any reasonable load. Only a minority of tubed power amps will pass a straight wire bypass test with a tough but reasonble speaker load. I think most modern amps of either stripe are probably very low in coloration. Without evidence, that is a statement of faith. But if I were to guess, I would suspect a well-designed tube amp to do somewhat better in that regard due to the fact that most tube gear is MUCH simpler, with fewer active components, than has an "equivalent" SS amp. Yes - audio is about making a series of guesses, not about the investigation of real-world evidence. Thanks for helping me clear that up! ;-) Fact is that classic power amps such as the Crown DC300 are still in use in professional applications, and within their power and load-handling limits, sound pretty darn good. I think that both of the Crown amps, the DC150 and the DC300 were among the worst sounding amplifiers I've ever heard. That's your opinon and you have every right to keep it. Fact of the matter is that those amps are still found in professional use,from time to time. Professional use? You mean sound reinforcement? No, I mean driving studio monitoring speakers for mixdown and mastering. I've heard them many times over the years, and other than their slightly limited reactive load-handling abilites, they sound fine. I'm beginning to suspect that our respective definitions of what sounds "fine" are wildly different. :- Yes, that seems to be the case. I base my equipment choices on sound quality, not residual values. I base my equipment choices on real world evidence gathered using the most reliable methods available, not a series of guesses. Add them to the companion IC150 pre-amp and you have good-looking but simply atrocious sounding music system. I don't have any recent experience with the IC150, but when it was new I heard it in some fine-sounding systems. I had one. The heart of it was an LM-301 op amp which sported, if memory serves, something like 1v/microsecond slew rate and an asymmetrical slew to boot. Ah, so you fell for the slew rate myth as well as the residual values distraction. I presume that you arrived at this conclusion by means of a series of guesses. I finally replaced it with a pin-compatible LF-357 op amp (a Bi-Fet design) with symmetrical slew rate of more than 50 v/microsecond and a bandwidth of more than 20 MegaHertz If you would bother to do a solid technical job of evaluating the job that the LM 301 had to do, you'd know that 1 v/uSec is overkill. The slew rate of 2 volts at 20 KHz is .355 v/uSec. Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. I don't know about the other two, but I have a Dyna 120 (from eBay) that appears to have 100% original parts, and still 100% meets its original specs on the test bench. I challenge anybody to pick it out in a straight-wire bypass test with a difficult speaker load in a blind test. I use it as part of a casual music listening system driving a pair of KEF speakers. It sounds good. I don't doubt that it meets specs. Of course, as usual, those specs have little or no correlation to how the amp actually sounds. Easy to say, but also easy to disprove. Not by me. That's right - you've already said that you base your decisions on guessing. The Dyna 120 is slow, has VISIBLE (on an o'scope) notch or crossover distortion and the 2N3055 output devices have woefully inadequate gain-bandwidth for the job. That must have been a broken Dyna 120 Then they were all broken That would be a baseless insult. Guessing doesn't count here. , as detailed tests show no crossover notches on my ST120. The test equipment used for the tests had residuals in the 0.001% range. Take a 400 Hz test tone run it through the amp with a dummy load at a fairly low level. Put a 'scope on the output, sync it and crank up the sensitivity at the zero-crossing point. You'll see it. Been there, done that. In fact I've run tests of power amps at such low levels that I use a mic preamp to amplify the signal prior to analysis. This was first demonstrated to me by no less than Bob Orban of Orban Associates (designer of the Optimod and other broadcast signal processing equipment). Then his amp was broken, or you're misremembering the occasion. I have a real ST120 that does not show any evidence of that performance fault. I've heard this sort of posturing about all kinds of amps. I've currently got a QSC USA 850 on the bench looking for non-existent crossover notches. People say the darndest things, but test benches don't lie. These output transistors were also being stressed to their ragged edge at the time, and Dynaco had to hand select them for V (sub) CEO (again IIRC). If you replaced them with off-the-shelf units available from the repair supply chain at the time, (instead of directly from Dynaco), they would promptly blow out taking the NPN/PNP driver pair (the numbers of which I've forgotten) with them. Interesting how my amp survived with factory outputs. It continues to survive driving some speakers that actually constitute a tough load, being rather reactive and dipping well below 4 ohms within the normal audio range. That's right - I routinely use my ST-120 with KEF Q-10s. Not a speaker that is tolerant of amps that aren't clean. Their impedance curve goes well below 4 ohms in the upper bass. In fact, that was the usual failure mode for these amps (which is the reason that I also said that they were unreliable), but I digress. I have to say that I seriously must question the hearing acuity of anyone who thinks that any early transistor amps sounded acceptable and I would gladly accept the challenge to pick a Stereo 120 out in a bypass test. You're safe because your posting IP address traces to one coast or the other, and I'm in the midwest. Well, while that's true, its not why I agreed. I'm that confident that I could tell the difference. I think you've already admitted that you are confident in guessing. I'm confident in reliable testing. I sure listened to one long enough - when I first got out of college, my room mate had a Stereo 120 and a PAT-4 preamp driving a pair of Altec 15-inch co-axial speakers in home-made cabinets. A composite system - so you don't know which part of it made sound bad. That's an assumption on your part. When I replaced the ST-120 with a Marantz 9 that I bought used (tubes), the sound improved considerably. The sound changed because of the appreciably poorer damping factor of the Marantz 9. As usual, a well-known audible variable was not considered. When I further replaced the Dyna PAT-4 with a Acrosound Preamp (also tubed) the rest of the nastiness went away. Of course, the Altecs still sounded like crap, but that's another issue (could never figure out how a 15" speaker in a cabinet built from Altec's own "application notes" could have so little bass). I'm not making any excuses for PAT-4s since I don't have one, and never did own one. But I do own a PAT-5 that uses one of your favorite LF 357 op amps. Its a cheap part. The first SS amp that I heard that I thought sounded OK was one of Jim Bongiorno's G.A.S. "Ampzilla" amps. The first one I owned that I thought was OK was the original Hafler. Even the Hafler stuff sounded hard by modern standards, but I suspect that swapping-out capacitors in the audio path would solve at least some of that. Capacitor magic - another one of those urban audiophile myths. Not at all a myth. Swapping out capacitors in the audio path with low DA types like Wonder caps or Sidereal caps makes a tremendous, and instantly noticeable difference. Well that may be true in sighted evaluations, but it all falls apart on the test bench and in proper listening tests. Walt Jung did extensive research in this area in the late 1970's and his results are fairly well described (if in a somewhat abbreviated fashion) at the following Tiny URL. http://tinyurl.com/3dr97v Debunked many times, perhaps most solidly by Robert Pease of National Semiconductor: http://findarticles.com/p/articles/m...05/ai_n7909454 His work in this area is seminal and widely acknowledged (just not by you, apparently :-). To bad you don't know many real engineers, you know the ones who design audio gear that sounds great and sells by the 100,000s. I first heard the difference when a friend of mine swapped out the crossover network caps in what were then my Magnaplanar Tympani 3's (I was a skeptical non-believer, he insisted, so I let him do the swap. The caps are very accessible on Maggies and no harm would be done). The audible distortion level dropped so dramatically that it was astonishing. Since then I've modified preamps (like the Citation I and and the AR SP3) and power amps (McIntosh 260's, for instance) as well as numerous CD players' analog stages, with incredible results. Sighted evaluation, natch! BTW one of the biggest capacitor dielelectric skeptics I know of uses Maggies for his evaluation system. Last time I sat with him on the 4th he was bragging about how he showed the engineering staff of a very large Japanese audio manufacturer's that their so-called "good sounding" capacitors were indistinguishble from caps they thought sounded bad. All it took was a simple bias-controlled listening test. |
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#113
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Blind testing: the epistemology
Michael Mossey wrote:
On Jul 26, 6:59 pm, bob wrote: On Jul 26, 7:43 pm, Mike wrote: I'm not talking about masking which occurs at a fairly low level in the perceptual mechanism, well before consciousness. Rather, the problem is that you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness. Indeed. So your argument, I take it, is that DBT results aren't generalizable to other listening situations because, unlike in those situations, in a DBT "you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." The trouble with this argument is that it contains a flawed premise. I.e., that in other listening situations, you do NOT "have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." In fact, you've already implicitly admitted that this is a false premise, with your (narrowly correct, in this case) claim that we experience music differently each time we hear it. The very reason we experience it differently is that we concentrate on or note different aspects of the music. So, if we "concentrate on or note different aspects of the music" in DBTs, and we "concentrate on or note different aspects of the music" when we're aren't in DBTs, then how is a DBT different from other forms of listening? Once again, you've bolstered my argument, not yours. A basic fact about listening to music is that context affects what you can perceive. Musicians exploit this. MAGICians exploit this too in the visual realm. Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw and for a demonstration how you can completely miss important signals if you are tied up looking for something else: http://answers.google.com/answers/threadview?id=490946 In the face of evidence like this, the burden is on DBT advocates to show that they _don't_ skew perception, if they wish us to believe they are relevant to other listening contexts. Actually following your logic, the burden is also on subjectivists to show they their perception isn't skewed, as well. We know very well that it can be -- that's the 'bias' that researchers attempt to nullify by using blind protocols. So how do subjecivists 'know' that their interpretation of sense data, is accurate? How do they know a difference isn't imaginary. THis is the very crux of the issue. FOr that matter, tell me, sir, why is DBT used routinely in psychoacoustics research, if it is so crippled as you assert? Do you actually imagine that no one has considered 'skewed perception' before? Believing that "perceiving" and "interpreting" a signal are independent is not science. The article about hypnosis above contradicts this. Does the New York Times article about hypnosis -- or indeed, any actual primary research into hypnosis -- call for abandoning blind protocols? DOubt it. In fact, I doubt the researchers you're indirectly citing, would support your interpretations of your perceptions of their work, at all. One of the semantic games you're playing is to insist that a concept have a precise definition or else it's not real. That's fine if we are talking about, say, organic chemistry, but when we are talking about the perception of music---sorry, nothing is precisely defined. In fact, when audio research takes as its premise that it will only investigate quantifiable things, then that research has much less relevance to music listening. YOu and your ilk keep going on and on about 'perception of music'. Does this mean that difference between cables won't manifest when listening to recordings of, say, human speech -- whihc after all, is the audio that we are perhaps most acutely evolved to perceive accurately? Are you aware that musical signals actually tend to *mask* some real differences -- a phenomenon well known to psychoacoustics? |
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#114
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Sun, 29 Jul 2007 08:27:11 -0700, Arny Krueger wrote
(in article ): "George Graves" wrote in message On Wed, 25 Jul 2007 16:07:43 -0700, Arny Krueger wrote (in article ): "George Graves" wrote in message On Tue, 24 Jul 2007 07:54:55 -0700, Arny Krueger wrote (in article ): It is a heathy tiny niche, particularly if you ignore tubed MI equipment. It's not so tiny. I suspect there are as many manufacturers of tube gear out there as there are of transistor stuff. Just off the top of my head: Audio Research Vacuum Tube Logic Manley VAC Cayin Cary Conrad Johnson Atmosphere The largest of these vendors probably make a few hundred pieces a year. Compare that to the jillions of pieces of solid state equipment that is sold for the purpose of reproducing music. No comparison! False comparison. We're talking about high-end components here (at least I am).The number of Onkyo, Panasonic, Samsung etc. receivers, rack systems and boom-boxes made each year is irrelevant. There are no cheap "brown goods" tube equipment made (AFAIK) and at least a score more. But these are probably the major ones. There are no doubt manunfacturers of mainstream audio gear that make more equipment by accident than any of these major tubed equipment manufacturers make on purpose. Mid-Fi gear is irrelevant. I'm talking about hi-end manufacturers. (although the differences between a good tube amp and a good solid-state amp are fairly miniscule now, they still do exist and mostly show-up at the frequency extremes and cipping characteristics). The main difference between tubed and SS power amps is the tremendous price/performance advantage of the latter. Ever price a 2,000 watt tubed power amp? Not lately. I don't believe there ever was one on the regular commercial market. The biggest commercial tubed hi fi amp I know of was the 300 watt McIntosh, that attained popularity driving disc cutting lathes. VTL makes a tube monobloc today called the "Siegfried". IIIRC, its 800 Watts. They used to make an amp called the "Ichiban" which, again, if memory serves, was 1KW, but that's about the largest tube amp I've ever heard of. One thing that I'm greatfull for in modern tube gear is the fact that since it was noted that the ear really cannot hear THD until it gets above about 2-2.5%, tube manufacturers bias output tubes further down the transfer curve than they used to. Tube amps no longer have a string of zeros between the decimal point and some number and usually are in the 0.1% category. This has resulted in expensive output tubes lasting far longer than they did the in the "tube era" with no compromise in audible performance. But still, I'd hate to have to re-tube a 1KW amplifier! But OTOH, who needs 2000 watts in their home audio system? Someone with very competent but inefficient subwoofers. I have two friends who had the need and filled it. With a 2000 Watt TUBE amp? Tubes aren't the greatest match for subwoofers due to the poor damping factor afforded by output transformers. I'd go SS there. Yeah, tube equipment can be pricey. My VTL 140s were about six grand a pair when new (and that was in the early nineties). But they do something that SS equipment doesn't do so well. They hold their value. Yes - audio is not about the enjoyment of music, it is about residual values for resale. Thanks for helping me clear that up! ;-) No, it isn't! And I have no intention of selling my VTLs - EVER! They are great amps with which I am quite contented. But If I did, I could sell them before the day is out. Unlike the pair of almost new Rockford-Hafler solid state amps that I tried to sell last year. Excellent amps by they way, bridgeable to 400 watts RMS each. I listed them on Craigs List three different times, each time at a lower price. No takers. Yet when I went to sell an Audio Research modified Dyna ST-70, it sold, at my asking price, within minutes of it showing-up on Craigs List. This merely shows that there is a good market for used tube gear, and not so much of a market for used SS gear. The market supposition seems to be that tubes are better for sound. came much less objectionable. Most SS power amps of quality level mid-fi or better will pass a straight wire bypass test with any reasonable load. Only a minority of tubed power amps will pass a straight wire bypass test with a tough but reasonble speaker load. I think most modern amps of either stripe are probably very low in coloration. Without evidence, that is a statement of faith. No, just observation. I take nothing on faith. But if I were to guess, I would suspect a well-designed tube amp to do somewhat better in that regard due to the fact that most tube gear is MUCH simpler, with fewer active components, than has an "equivalent" SS amp. Yes - audio is about making a series of guesses, not about the investigation of real-world evidence. Thanks for helping me clear that up! ;-) I don't know what you are talking about. Guesses are hypothetical postulations at best, and blind chance at worst. Speculative thinking, while possibly useful in conversation, is useless for actually evaluating anything. At any rate I didn't guess, I said that "if I WERE to guess." I'm extremely sorry that you misunderstood my words. Perhaps English is not your native tongue, in which case I'll give you the benefit of the doubt. Fact is that classic power amps such as the Crown DC300 are still in use in professional applications, and within their power and load-handling limits, sound pretty darn good. I think that both of the Crown amps, the DC150 and the DC300 were among the worst sounding amplifiers I've ever heard. That's your opinon and you have every right to keep it. Fact of the matter is that those amps are still found in professional use,from time to time. Professional use? You mean sound reinforcement? No, I mean driving studio monitoring speakers for mixdown and mastering. No wonder so many modern recordings sound so bad. Thanks for helping me to clear up THAT mystery! I've heard them many times over the years, and other than their slightly limited reactive load-handling abilites, they sound fine. I'm beginning to suspect that our respective definitions of what sounds "fine" are wildly different. :- Yes, that seems to be the case. I base my equipment choices on sound quality, not residual values. I base my equipment choices on real world evidence gathered using the most reliable methods available, not a series of guesses. That's a complete mischaracterization and I think you know it. I mentioned that tube gear holds its value merely to show that used tube amps are more highly regarded and sought after than is used SS gear. It's certainly not a criteria for choosing them. Also, I choose my equipment by listening to it, not by "guessing" about anything. Add them to the companion IC150 pre-amp and you have good-looking but simply atrocious sounding music system. I don't have any recent experience with the IC150, but when it was new I heard it in some fine-sounding systems. I had one. The heart of it was an LM-301 op amp which sported, if memory serves, something like 1v/microsecond slew rate and an asymmetrical slew to boot. Ah, so you fell for the slew rate myth as well as the residual values distraction. I presume that you arrived at this conclusion by means of a series of guesses. Not even worth a comment. Seems like all Usenet debates end up the same way. The opponent with the weakest argument resorts to deliberate mischaracterization and personal rancor. replaced it with a pin-compatible LF-357 op amp (a Bi-Fet design) with symmetrical slew rate of more than 50 v/microsecond and a bandwidth of more than 20 MegaHertz If you would bother to do a solid technical job of evaluating the job that the LM 301 had to do, you'd know that 1 v/uSec is overkill. The slew rate of 2 volts at 20 KHz is .355 v/uSec. Then why did the LF-357 sound so much better? I'll tell you why. It was faster and had less distorted high frequencies, and it had symmetrical slew rate (unlike the LM301 where each half of the waveform takes a different path through the op-amp). Nowdays, it's difficult to tell a good tube amp from a good solid-state amp. But as anyone who ever suffered a Dynaco Stereo 120, a Harmon-Kardon Citation 12, or an Acoustat 1 Amp will tell you, they sounded TERRIBLE as well as being unreliable and unstable. I don't know about the other two, but I have a Dyna 120 (from eBay) that appears to have 100% original parts, and still 100% meets its original specs on the test bench. I challenge anybody to pick it out in a straight-wire bypass test with a difficult speaker load in a blind test. I use it as part of a casual music listening system driving a pair of KEF speakers. It sounds good. I don't doubt that it meets specs. Of course, as usual, those specs have little or no correlation to how the amp actually sounds. Easy to say, but also easy to disprove. Not by me. That's right - you've already said that you base your decisions on guessing. The Dyna 120 is slow, has VISIBLE (on an o'scope) notch or crossover distortion and the 2N3055 output devices have woefully inadequate gain-bandwidth for the job. That must have been a broken Dyna 120 Then they were all broken That would be a baseless insult. Guessing doesn't count here. , as detailed tests show no crossover notches on my ST120. The test equipment used for the tests had residuals in the 0.001% range. Take a 400 Hz test tone run it through the amp with a dummy load at a fairly low level. Put a 'scope on the output, sync it and crank up the sensitivity at the zero-crossing point. You'll see it. Been there, done that. In fact I've run tests of power amps at such low levels that I use a mic preamp to amplify the signal prior to analysis. This was first demonstrated to me by no less than Bob Orban of Orban Associates (designer of the Optimod and other broadcast signal processing equipment). Then his amp was broken, or you're misremembering the occasion. I have a real ST120 that does not show any evidence of that performance fault. I've heard this sort of posturing about all kinds of amps. I've currently got a QSC USA 850 on the bench looking for non-existent crossover notches. People say the darndest things, but test benches don't lie. I think I might know why we're seeing such wildly different results. The first ST-120's came out in 1966 and the ones with which I am familiar all stem from 1966-1969. The amps were in production well into the seventies and somewhere along the line, apparently, the circuit was modified and the transistor complement was changed: Q1 replace 40233 (100-250 beta) with BC108A (130-180 beta) Q2, Q8 replace 2N3053 (100-200 beta) with 2N5320 (160-260 beta) Q3 replace 2N3053 with TIP31C Q4 replace 2N4037 with TIP32C Q5, Q6 replace 2N3055 (17-25 beta) with 2N3772 (60-90 beta @ 1A) Also a number of zener diodes, resistors and capacitors were changed, some of which might have altered the bias on the driver and output transistors (understand, that I do not know this as a fact I'm merely suggesting that this could account for the fact that your amp doesn't exhibit the crossover notch that I KNOW was there in the earlier units), to move the amp more into class AB (the original Dyna ST-120 was apparently a class B amp due the inability of the original transistors to handle that much collector current). If this is indeed the case, then it would explain why the ST-120's that I was familiar with had the crossover notch and yours does not. It would also explain why the 120's I knew were frail and unreliable and you say that yours is very robust. IOW, they fixed it! These output transistors were also being stressed to their ragged edge at the time, and Dynaco had to hand select them for V (sub) CEO (again IIRC). If you replaced them with off-the-shelf units available from the repair supply chain at the time, (instead of directly from Dynaco), they would promptly blow out taking the NPN/PNP driver pair (the numbers of which I've forgotten) with them. Interesting how my amp survived with factory outputs. It continues to survive driving some speakers that actually constitute a tough load, being rather reactive and dipping well below 4 ohms within the normal audio range. That's right - I routinely use my ST-120 with KEF Q-10s. Not a speaker that is tolerant of amps that aren't clean. Their impedance curve goes well below 4 ohms in the upper bass. In fact, that was the usual failure mode for these amps (which is the reason that I also said that they were unreliable), but I digress. I have to say that I seriously must question the hearing acuity of anyone who thinks that any early transistor amps sounded acceptable and I would gladly accept the challenge to pick a Stereo 120 out in a bypass test. You're safe because your posting IP address traces to one coast or the other, and I'm in the midwest. Well, while that's true, its not why I agreed. I'm that confident that I could tell the difference. I think you've already admitted that you are confident in guessing. Correction, AGAIN. I said that if I WERE to guess. Different thing altogether. I'm confident in reliable testing. Which doesn't, from your comments, seem to correlate with how stuff actually sounds. Fancy that. I sure listened to one long enough - when I first got out of college, my room mate had a Stereo 120 and a PAT-4 preamp driving a pair of Altec 15-inch co-axial speakers in home-made cabinets. A composite system - so you don't know which part of it made sound bad. That's an assumption on your part. When I replaced the ST-120 with a Marantz 9 that I bought used (tubes), the sound improved considerably. The sound changed because of the appreciably poorer damping factor of the Marantz 9. As usual, a well-known audible variable was not considered. When I further replaced the Dyna PAT-4 with a Acrosound Preamp (also tubed) the rest of the nastiness went away. Of course, the Altecs still sounded like crap, but that's another issue (could never figure out how a 15" speaker in a cabinet built from Altec's own "application notes" could have so little bass). I'm not making any excuses for PAT-4s since I don't have one, and never did own one. But I do own a PAT-5 that uses one of your favorite LF 357 op amps. Its a cheap part. Yes, it is a cheap part, and much better than the dinosauric 741 generation of op-amp design of which the LM301 is a member. No op-amps are my "favorites" I prefer discrete componentry for audio but sometimes, one can't know before hand that a piece of equipment has them, and after all, its the sound that counts, not the technology. Of course, where the technology cannot supply good sound, such as in the case of the early ST-120... The first SS amp that I heard that I thought sounded OK was one of Jim Bongiorno's G.A.S. "Ampzilla" amps. The first one I owned that I thought was OK was the original Hafler. Even the Hafler stuff sounded hard by modern standards, but I suspect that swapping-out capacitors in the audio path would solve at least some of that. Capacitor magic - another one of those urban audiophile myths. Not at all a myth. Swapping out capacitors in the audio path with low DA types like Wonder caps or Sidereal caps makes a tremendous, and instantly noticeable difference. Well that may be true in sighted evaluations, but it all falls apart on the test bench and in proper listening tests. Walt Jung did extensive research in this area in the late 1970's and his results are fairly well described (if in a somewhat abbreviated fashion) at the following Tiny URL. http://tinyurl.com/3dr97v Debunked many times, perhaps most solidly by Robert Pease of National Semiconductor: http://findarticles.com/p/articles/m...05/ai_n7909454 That's interesting. I see nothing in that short piece of fluff that does anything other than define the term. There is nothing there debunking DA as a source of distortion. His work in this area is seminal and widely acknowledged (just not by you, apparently :-). To bad you don't know many real engineers, you know the ones who design audio gear that sounds great and sells by the 100,000s. I am a real engineer. I actually have a sheepskin and a tassel from my morterboard hat and graduation pictures, the whole ball of wax! :-) I first heard the difference when a friend of mine swapped out the crossover network caps in what were then my Magnaplanar Tympani 3's (I was a skeptical non-believer, he insisted, so I let him do the swap. The caps are very accessible on Maggies and no harm would be done). The audible distortion level dropped so dramatically that it was astonishing. Since then I've modified preamps (like the Citation I and and the AR SP3) and power amps (McIntosh 260's, for instance) as well as numerous CD players' analog stages, with incredible results. Sighted evaluation, natch! You're jumping to conclusions again. BTW one of the biggest capacitor dielelectric skeptics I know of uses Maggies for his evaluation system. Last time I sat with him on the 4th he was bragging about how he showed the engineering staff of a very large Japanese audio manufacturer's that their so-called "good sounding" capacitors were indistinguishble from caps they thought sounded bad. All it took was a simple bias-controlled listening test. Permit me to doubt. |
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#115
Posted to rec.audio.high-end
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Blind testing: the epistemology
Michael Mossey wrote:
snip So, if we "concentrate on or note different aspects of the music" in DBTs, and we "concentrate on or note different aspects of the music" when we're aren't in DBTs, then how is a DBT different from other forms of listening? Once again, you've bolstered my argument, not yours. A basic fact about listening to music is that context affects what you can perceive. Musicians exploit this. MAGICians exploit this too in the visual realm. Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw Yes, and if I recall correctly, you made several similar posts, concurrent with the publishing of that article, that similarly misinterpreted what that 'top down' processing actually *means* in this context. and for a demonstration how you can completely miss important signals if you are tied up looking for something else: http://answers.google.com/answers/threadview?id=490946 In the face of evidence like this, the burden is on DBT advocates to show that they _don't_ skew perception, if they wish us to believe they are relevant to other listening contexts. The "evidence like this" you cite does not support your position. The 'top down' processing is about pattern recognition, and the filtering effects it has on processing of new input (e.g. sound). When you listen to music, whether DBT or otherwise, you will utilize your previous knowledge of musical patterns in an attempt to recognize and interpret the new data. That's all the NYT article says. For example, it says that: "What you see is not always what you get, because what you see depends on a framework built by **experience that stands ready to interpret the raw information** - as a flower or a hammer or a face".emphasis added, and further that it goes on with: "The probe, called the Stroop test, presents words in block letters in the colors red, blue, green and yellow. The subject has to press a button identifying the color of the letters. The difficulty is that sometimes the word RED is colored green. Or the word YELLOW is colored blue. For people who are literate for this discussion, read musically literate, reading is so deeply ingrained that it invariably takes them a little bit longer to override the automatic reading of a word like RED and press a button that says green. This is called the Stroop effect." This infers, quite clearly, that the pattern processing (i.e. your musical interpretation overlayed on the sensory input) will be very difficult to overcome. Rather puts paid to the notion that the DBT is *so* disruptive that the *music* can't come through. And, again, you conflate "quick-switching" with short rapidly switched snippets of A and B (your next post). Listen to each as long as you like, in any manner you like, in any order you like, as relaxed or intent as you like, in any setting you like, playing any music you like, focusing on any parameter you like. *ALL* of these are clearly doable in the context of DBT, ABX or otherwise. Just *exactly* the way you listen to music at any other time, missing only the visual clues. This has been pointed out, ad nauseum, so why keep pretending otherwise? Keith Hughes |
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#116
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 29, 11:03 am, Michael Mossey wrote:
A basic fact about listening to music is that context affects what you can perceive. Musicians exploit this. MAGICians exploit this too in the visual realm. Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw and for a demonstration how you can completely miss important signals if you are tied up looking for something else: http://answers.google.com/answers/threadview?id=490946 In the face of evidence like this, the burden is on DBT advocates to show that they _don't_ skew perception, if they wish us to believe they are relevant to other listening contexts. Prove a negative? No, thank you. But once again, you marshal evidence that supports my argument, not yours. Yes, human perception is quirky in all sorts of ways, but it is quirky in ALL listening contexts. None of the examples you've cited occurred in DBTs, after all. So again, the claim that listening in DBTs is in any way different from listening in other contexts remains unsupported. Not only have you no support for your position, but you've shown us no reason why we should doubt the relevance of DBT results. snip One of the semantic games you're playing is to insist that a concept have a precise definition or else it's not real. Please stop projecting your own misconceptions on me. All I've done is to demand that YOU define the terms you use. After all, you can't expect me to have a serious debate with someone who uses verbal ambiguity to suit his "argument." That's fine if we are talking about, say, organic chemistry, but when we are talking about the perception of music---sorry, nothing is precisely defined. Exactly--you can't even define your own terms. So you're saying, "I can't tell you what 'perception of music' means, but you have to prove that DBTs don't inhibit it in any way." Can't you see how ridiculous that is? snip I'm just asking you to provide some evidence in the face of all the reasons why DBT listening should skew perception What reasons??? You haven't provided a shred of evidence about DBTs at all. that it does NOT skew perception. After all, that's what you assume when you make equipment recommendations based on DBT results. You're assuming this is true; now let's see you provide some evidence for it Obviously, I cannot, and it is not my obligation to do so. You've made the assertion that there are "significant aspects of the signal" that are not "available to consciousness." You need to tell us what those "aspects" are, and why they are not "available," whatever that means. The experiment with the gorilla above shows in a general way why this can happen. This is your evidence--the gorilla experiment? Let me try to explain it to you: Everybody SAW the gorilla. The gorilla is not a black hole. So it reflects light, which enters the eye and strikes the retina, which sends a signal to the brain via the optic nerve. So the image of the gorilla reaches the brain. If you doubt this, you have to tell us which part of physics and/or biology you wish to deny. The problem is that while the image reaches the brain, nobody NOTICES the gorilla. Is that, then, your argument about DBTs--that subjects don't notice everything about whatever they're listening to? But you yourself admit that people never notice everything about whatever they're listening to. So how are DBTs in any way deficient if they share with other listening contexts the very attribute you say is so critical? This is why you have to be more specific. You have to tell us--or at least hypothesize about--what specific aspect of musical sound can't be perceived in a DBT but can be perceived in other contexts. If you don't do that, then you're not only demanding that I prove a negative. You're actually demanding that I prove something you already know to be false. That is, if people *never* notice everything, then how could I possibly prove that DBT subjects *do* notice everything? Again, do you see how ridiculous your line of "argument" is? bob |
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#117
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 29, 11:54 am, Steven Sullivan wrote:
Michael Mossey wrote: On Jul 26, 6:59 pm, bob wrote: On Jul 26, 7:43 pm, Mike wrote: I'm not talking about masking which occurs at a fairly low level in the perceptual mechanism, well before consciousness. Rather, the problem is that you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness. Indeed. So your argument, I take it, is that DBT results aren't generalizable to other listening situations because, unlike in those situations, in a DBT "you have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." The trouble with this argument is that it contains a flawed premise. I.e., that in other listening situations, you do NOT "have many places to put your conscious attention, choosing among those aspects of the signal which are available to consciousness." In fact, you've already implicitly admitted that this is a false premise, with your (narrowly correct, in this case) claim that we experience music differently each time we hear it. The very reason we experience it differently is that we concentrate on or note different aspects of the music. So, if we "concentrate on or note different aspects of the music" in DBTs, and we "concentrate on or note different aspects of the music" when we're aren't in DBTs, then how is a DBT different from other forms of listening? Once again, you've bolstered my argument, not yours. A basic fact about listening to music is that context affects what you can perceive. Musicians exploit this. MAGICians exploit this too in the visual realm. Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw and for a demonstration how you can completely miss important signals if you are tied up looking for something else: http://answers.google.com/answers/threadview?id=490946 In the face of evidence like this, the burden is on DBT advocates to show that they _don't_ skew perception, if they wish us to believe they are relevant to other listening contexts. Actually following your logic, the burden is also on subjectivists to show they their perception isn't skewed, as well. Actually following your logic, the burden is also on subjectivists to show they their perception isn't skewed, as well. Sighted listening can be biased, I agree. However, it's DBT advocates who claim they have the force of science behind their work, so they are obligated to examine their assumptions. FOr that matter, tell me, sir, why is DBT used routinely in psychoacoustics research, if it is so crippled as you assert? To restate something important, there's no single concept "DBT." There are many DBT protocols, many test conditions. It's not surprising that some aspects of a signal can be perceived well under some conditions. Do you actually imagine that no one has considered 'skewed perception' before? Believing that "perceiving" and "interpreting" a signal are independent is not science. The article about hypnosis above contradicts this. Does the New York Times article about hypnosis -- or indeed, any actual primary research into hypnosis -- call for abandoning blind protocols? DOubt it. Neither do I call for abandoning blind protocols. I call for understanding better their relationship to some of the subtler qualities of sound, such as musical feeling. YOu and your ilk keep going on and on about 'perception of music'. Music is only one of the sounds and experiences provided by an audio system, but it's a particularly interesting one. The way that context affects perception of music, something exploited by musicians and composers constantly, leads to a particularly difficult situation to test. Mike |
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#118
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 29, 6:39 pm, Keith Hughes wrote:
This infers, quite clearly, that the pattern processing (i.e. your musical interpretation overlayed on the sensory input) will be very difficult to overcome. Rather puts paid to the notion that the DBT is *so* disruptive that the *music* can't come through. But context affects musical interpretation, and many DBT protocols highly distort the context. Basic facts about music suggest that interesting and subtle qualities won't "come through". And, again, you conflate "quick-switching" with short rapidly switched snippets of A and B (your next post). Listen to each as long as you like, in any manner you like, in any order you like, as relaxed or intent as you like, in any setting you like, playing any music you like, focusing on any parameter you like. *ALL* of these are clearly doable in the context of DBT, ABX or otherwise. I'm making no assumption about the test conditions. They can be anything we like, and in fact we should all be working to find some set of conditions that work. However, it's important to mention quick- switching/snippet because a large number of claims are based on such tests (i.e. Arny's web site). And I've been told a few tests under other conditions were done---a few---but there was no attempt to control the conditions or how the subjects used their attention. Mike |
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#119
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 29, 6:40 pm, bob wrote:
On Jul 29, 11:03 am, Michael Mossey wrote: A basic fact about listening to music is that context affects what you can perceive. Musicians exploit this. MAGICians exploit this too in the visual realm. Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw and for a demonstration how you can completely miss important signals if you are tied up looking for something else: http://answers.google.com/answers/threadview?id=490946 In the face of evidence like this, the burden is on DBT advocates to show that they _don't_ skew perception, if they wish us to believe they are relevant to other listening contexts. Prove a negative? No, thank you. That's a cop out. You have to provide *some* evidence that DBT conditions are valid. One of the semantic games you're playing is to insist that a concept have a precise definition or else it's not real. Please stop projecting your own misconceptions on me. All I've done is to demand that YOU define the terms you use. After all, you can't expect me to have a serious debate with someone who uses verbal ambiguity to suit his "argument." I started a discussion about the epistemology of audio testing. Maybe you aren't interested in this kind of discussion. That's fine if we are talking about, say, organic chemistry, but when we are talking about the perception of music---sorry, nothing is precisely defined. Exactly--you can't even define your own terms. So you're saying, "I can't tell you what 'perception of music' means, but you have to prove that DBTs don't inhibit it in any way." Can't you see how ridiculous that is? It is ridiculous. It's also a strawman. Anyone can explore the perception of music. It especially helps to sing or play an instrument. Many of us find a common language and feel that we are communicating about the experience of music on a common level. Many of us find that music has a meaning only in context, and that many DBT's will distort the context. Therefore, I'm interested in finding some way of constructing a DBT that doesn't distort the context. It seems you've already made up your mind there's no problem with DBT's (any DBT?). The experiment with the gorilla above shows in a general way why this can happen. This is your evidence--the gorilla experiment? Let me try to explain it to you: Everybody SAW the gorilla. The gorilla is not a black hole. So it reflects light, which enters the eye and strikes the retina, which sends a signal to the brain via the optic nerve. So the image of the gorilla reaches the brain. If you doubt this, you have to tell us which part of physics and/or biology you wish to deny. The problem is that while the image reaches the brain, nobody NOTICES the gorilla. Is that, then, your argument about DBTs--that subjects don't notice everything about whatever they're listening to? But you yourself admit that people never notice everything about whatever they're listening to. So how are DBTs in any way deficient if they share with other listening contexts the very attribute you say is so critical? In the gorilla experiment, subjects were given a restricted focus. A DBT likewise encourages a restricted focus. There are many reasons. A test based on snippets will restrict the focus to one short moment of sound. A test based on quick switching will restrict the focus to the moment of switching. Even a test based on longer listening segments requires that the subject try to remember sound in a way that foreign to listening for enjoyment. Mike |
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#120
Posted to rec.audio.high-end
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Blind testing: the epistemology
On Jul 29, 11:03 am, Michael Mossey wrote:
Your INTENTION affects what you can perceive. Your intention even affects how the lower neural circuits process raw stimuli. For a discussion how your intention actually changes how you process signals, see http://www.nytimes.com/2005/11/22/science/22hypno.html? ei=5070&en=968c0cb9ab848d69&ex=1185854400&adxnnl=1 &adxnnlx=1185702379- xWx02NnMb9D0ytIAKCNlLw Finally had a chance to go back to this article, and sure enough, your statements about it are completely wrong. It's not about *intention* at all. It's about expectation--something that has long been known to affect perception. Of course, DBTs are designed to minimize the effects of expectation, compared to other listening contexts. So thanks for providing yet more evidence for my side of the argument. bob |
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