On a more serious note which DS-21 brings up, I have never used an SMS-1 so I can't comment on it but the thought that perhaps it is based on the same software and performs the same did enter my mind. Again I have never used one though.
Josh, I'm curious: did you ever hook the DD18+ up to a TV through the composite or S-video output - I just looked it up to see if it still has them, and it does
- to see if the graph is similarly offset?
I ask solely because it would be interesting to know if it displays with the same offset on on a TV as it does on a computer screen. When my next new amp for my second sub shows up,* assuming the amp actually works for me (which it will if it's not DOA, as it's an updated version of the amp I currently use for the primary sub) I'll take pictures of the SMS-1 screenshots and compare them to what I get hooking my new Art Dual Pre - new MacBook doesn't have FireWire, which I didn't realize until I got it home, so I needed a new mic preamp... - up to the MIC-5 and taking steady-state measurements of that physical spatial average in FuzzMeasure, as well as taking five measurements in the same "bubble" with a single mic hooked up to the Dual Pre and averaging them in FuzzMeasure.
*Not really germane to this thread, but let's just say that I'm going to recommend everyone who uses the miniDSP to set levels/delay/EQ for a DIY multisub step get the balanced version, because the low output of the unbalanced unit seriously limits amp choice, and it's also IMO unacceptably noisy when one uses a line driver to compensate for the low output. (Amps with lower input sensitivity, such as the Dayton rack sub amps and I expect most plate amps in commercial subs, work just fine with the unbalanced miniDSP; so would, I expect, Emotiva amps, because they seem to design in low input sensitivity to get people to think they sound better than other amps.) Also, it seems that some of the modern lightweight Class D pro amps generate a lot of spurious HF noise when plugged into a power strip that turns outlets on/off based on the state of the AVR, though not when plugged directly into the wall.
Having measured my subs via SMS and then measuring with REW there was a wide difference between the two graphs, enough for me to use REW for measuring and SMS to apply filters based on REW.
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I would say that some rooms might be tougher to get a flat response, therefore the difference between SMS and REW would increase. Conversely, the easier room could be a closer match to what SMS and REW 'sees'.
I suspect that you're onto something with those last two sentences. A room-multisub system that has fairly low variance in true response will lead to smaller variances in measurements taken with different measurement techniques, while a room-sub system with higher true variance would lead to a larger variance in measurements taken with different techniques. That could lead to differing viewpoints.
But just to confirm, when you talk about wide differences between REW results and SMS-1 results, you're talking primarily about differences that appear to be due to smoothing, right? That is to say, it didn't look to you as if the SMS-1 display was
offset compared to the REW graph, did it?
Also, consider that in a spatially-averaged measurement, there is a degree of "smoothing" (really convergence to the true response) from the averaging of multiple measurements anyway. That helps take away a lot of the phantom grass that people who don't take spatially-averaged measurements but have measurement systems capable of displaying highly precise (if ultimately inaccurate) single-point measurements and powerful parametric EQ devices often waste time "correcting."
I think what DS may be saying (it's fun putting words into people's mouths), is that 1/3 Octave is enough from a measurement perspective to adjust for what matters.
Just to clarify,
1/3 octave smoothing of a steady-state measurement. I wouldn't - and don't - play successive discrete 1/3 octave test tones, measure with an SPL meter, and plot the result in a spreadsheet.
Would be interesting to know whether the SMS-1 is in fact measuring at a higher resolution and presenting the FR at 1/3 Octave, or measuring at 1/3 octave as well.
Given that the test tone is a sweep rather than discrete tones, I find it doubtful that it's just sampling discrete 1/3-octave tones and plotting a curve that connects them. I have no inside knowledge one way or the other, though.
You like to quote Dr. Floyd Toole's book but did you actually read it?
Obviously, yes.
Spatial averaging without applying weighing of importance to the measurements is pretty useless but it does seem impressive to set mics up around the room doesn't it?
Gene, this time I even gave you a picture! As should be clear from that picture, I do not advocate "set[ting] mics up around the
room" [emph. added]
Rather, what one should do is take a proper spatial average puts the mics in a bubble around the
intended listening position. See the picture in my previous post for an example of a proper setup to ascertain the true response with much less error
at one listening position..
One can of course measure at multiple listening positions. That means taking a spatial average around a "bubble" centered around each alternate listening position.
Furthermore, on what grounds would one weight one measurement over another? They're all an equal part of the spatial average for that listening position. After all, the point of taking multiple measurements is to correct for errors inherent in a single sample. See Geddes and Blind, "The Localized Sound Power Method," 34 JAES 3 (Mar., 1986), at 167.
That said, I asked Dr. Geddes about my approach of taking the spatial average with multiple mics deployed at once and averaged with a mixer, as opposed to using one mic in multiple positions and averaging the resultant graphs in software. His response was as follows:
Dr. Earl Geddes said:
There is a small preference for doing spatial averages on data in dB, but this is not a critical factor. Theoretically the averaging should be in dB, but studies have shown difference in only fairly extreme cases. When averaging linear signals, the phases can be such that nulls can appear when no real null exists. SO if you do average the mix signals with a mixer the nulls may be wrong, but everywhere else the data is fine. However, software averaging is orders of magnitude cheaper to do, so I would think this to be the best approach.
Next time I do a subwoofer setup - soon, I expect; see supra - I want to compare using the Velodyne MIC-5 (which is, after all, a simple mixer/mic-preamp and 5 mics) to taking five individual measurements. I hope the MIC-5 comes out identical, because it makes the process much quicker. Though my comparison cannot be totally valid because I only a calibration file for one mic. The other five are not calibrated, and even if they were how could one use calibration files when the data are mixed upstream of the measurement program?
Now, I could see, if someone
really cared about the sound at multiple positions, constructing an algorithm that combines all of the measurements one takes, weighting the
spatial average for each position differently in the summation. That would see to me to require some bespoke program, though perhaps FuzzMeasure or one of the packages could do such a thing. I've not explored it, as I'm not personally that concerned with response all around the room.
i have detailed this quite extensively in the following article which incidentally was peer reviewed by Dr. Floyd Toole:
Home Theater Multiple Subwoofer Set-Up & Calibration Guide — Reviews and News from Audioholics
It's worth noting that your article is inconsistent with Harman's modern approach to real rooms, Sound Field Management, so perhaps an update is in order. The Welti & Devantier work you cite is based on idealized rectangular rooms, not real domestic living rooms with varied openings, wall shapes, large furniture, etc.
SFM employs randomized (as opposed to symmetrical) placement of multiple subwoofers (with no bias against odd numbers) and uses an algorithm to set independent levels, delay/phase, and to some degree parametric EQ for each one. For more on SFM, please see Toole, § 13.3.6, at 230.
As for MTM center channels being flawed, I actually did write an article about how they can work just fine***
...
I apologize for introducing a digression about that...article into this thread. Whatever my thoughts about it, it is entirely out of the scope of this thread, which is Velodyne's excellent-performing DD18+ subwoofer generally, and insofar as my participation is involved,
an apparent software bug in either the measurement or the display system of the DD18+ that seems to shift the measurement taken by the device over by 1/2 octave.
Josh Ricci uncovered the bug in his review and discussed it in some detail. But until I mentioned it Josh's work seems to have gone unnoticed amid much kvetching about comparative irrelevancies such as pricing.
Hopefully someone at Velodyne read Josh Ricci's superb review (his approach should be the model for all reviews of loudspeakers, not just subs, albeit with polar maps for larger-bandwidth devices) and is thinking about where in the measurement or display system the bug might reside and how to fix it.
