Sean:
That's sort of true. When you have interacting modes it's a reduction in overall energy. While you do correct for one position (or you can actually do an averaging, but I typically don't recommend this method) it's the overall energy reduction for those modes. Now when you are correcting for things other than room modes, then you are aboslutely right and it's very positional dependent.
A test that we did was correcting room modes at the listening position and then sitting somewhere else and putting the PARC in and out of the circuit. It always sounded better in, but it was also a bit better at the spot where the measurements were done. What I found really interesting was when I would sit in a point that was theorhetically the null of one of the most problematic frequencies it still sounded dramatically improved with the PARC in the circuit.
That's sort of true. When you have interacting modes it's a reduction in overall energy. While you do correct for one position (or you can actually do an averaging, but I typically don't recommend this method) it's the overall energy reduction for those modes. Now when you are correcting for things other than room modes, then you are aboslutely right and it's very positional dependent.
A test that we did was correcting room modes at the listening position and then sitting somewhere else and putting the PARC in and out of the circuit. It always sounded better in, but it was also a bit better at the spot where the measurements were done. What I found really interesting was when I would sit in a point that was theorhetically the null of one of the most problematic frequencies it still sounded dramatically improved with the PARC in the circuit.