nathan_h and others - if you are able to make high-resolution steady-state LF measurements, you will find the resonances. It is very likely - based on my lifetime of experiences - that there are only a few, probably only one or two problem resonances (peaks) and a bunch of dips. You cannot equalize the narrow dips because they are non-minimum-phase destructive-interference phenomena. So you don't want an automated equalizer that might try to fill them - there are some "smart" algorithms that are programed to ignore them, but you have to know that. All you really need is a manually programmable parametric EQ that allows you to zero in on the problem peaks, adjust the frequency, the Q (bandwidth) and dial the peaks down to a moderate level. That's it.
I'm going to assume that you prefer not to talk about specific commercial solutions, which is fine/understandable.
For other folks in this thread, I will comment that I have found the DSPeaker Anti Mode products to be just about he only "automatic" tool that tames key peaks in the subwoofer realm, without doing harm or getting overzealous.
http://www.dspeaker.com/en/products/anti-mode-8033.shtml
But the MiniDSP, if one is comfortable with translating REW measurements into filter parameters, seems to achieve very similar results. Pros: You can visibility into exactly what the EQ is doing with the MiniDSP because YOU are doing it. Cons: If you blindly follow the REW recommendations about filter parameters, you may not get what you want.
I have one of each and depending on what I am trying to achieve, I use one or the other. If it is simply taming a sub's in room response, the DSPeaker Anti Mode is quick and easy. The MiniDSP, on the other hand, lets me do other things, like take a stereo signal and do bass management with it (pulling the low frequencies to a separate output) and EQ a little, a lot, etc, whatever I want.
As for equalizing above the transition frequency (the Schroeder calculation is designed for large reverberant performance spaces and yields the wrong frequency in small rooms), it is a good thing - up to a point. Above the subwoofer frequency one enters the domain of adjacent boundary effects (Chapter 12 in my book), which includes what some people call the Allison effect. These can be equalized, and often show up as dips, but they are broad, low-Q dips when you do the necessary spatial average over the listening area. So, knowledgeable equalization is useful up to a few hundred Hz if used with restraint. I would advise reducing the Q of the filters at higher frequencies though.
When I first read your book, I'll bet I completely did not grok this. I need to go revisit it. Thanks for the reminder/pointer.
So, equalizing resonances for the benefit of the sweet spot needs one mic location, while identifying the adjacent boundary issues requires multiple mic locations. Only with multi-sub solutions will the EQ reliably work for multiple listeners.
I have finally got the 'multi subs' religion. I first heard / read about the idea nearly 10 years ago. I bought a second sub, put it on the front wall with the first and said "Well, that doesn't seem to have made any difference!" and sold that second sub.
Some time after that I read the summary of Welti's research/articles (there was a nice PPT making the rounds that summarized the AES paper, I believe) and understood my error. It wasn't just about dropping a second sub into the room at random but doing so in a deliberate fashion. I got a second sub, again, and placed it in the opposite corner of my rectangular room from the first sub, and that made a ton of difference. A little EQ to tame peaks and one is golden.
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Thanks for sharing your learnings. I'm off to do my homework.
