04-21-11: Dbphd
One of the most reliable phenomena in psychoacoustics is what is know as the masking level difference (MLD). Present a mid-freuquncy sinusoid in correlated noise to both ears and adjust the level until it becomes inaudible; flip the phase of the sinusoid in one ear, and the signal pops up as much as 15 dB, depending on frequency.
Dbphd - My understanding is that BMLD is a measure of the difference between the thresholds of detection for…
1. Auditory stimuli in which the signal and noise are the same phase and level.
...and…
2. Auditory stimuli in which the signal and noise are different in phase and/or level.
It’s unclear to me how the existence of BMLD affects my observations about subwoofer time alignment. Maybe you can elaborate.
At the time, the data suggested the auditory system doesn't preserve timing as such up the neural chain, but may convey such information by the more central areas excited.
Again, it’s unclear to me how this bears on my observations about subwoofer time alignment. I’m not saying it doesn’t. I just don’t see the connection. Maybe you can say more. Having said that, I do have a few thoughts...
As you are probably aware, there has been a great deal of neuroscientific research over the past 20 years using fMRI and PET scans. Much of that research has been directed at correlating various brain regions with perceptual, linguistic, and motor abilities/deficits. A significant amount of that research has been devoted to auditory perception, including the brain regions that correlate with temporal processing and temporal resolution.
I’m under the impression that the neuroscientific research on temporal resolution has discovered a number of neural correlates for auditory temporal resolution, corroborating earlier measurements of temporal resolution obtained through psychoacoutic experiments (e.g. gap detection).
Here is an excerpt from
an article in the journal Cerebral Cortex:
We used positron emission tomography to examine the response of human auditory cortex to spectral and temporal variation…Results indicated that (i) the core auditory cortex in both hemispheres responded to temporal variation, while the anterior superior temporal areas bilaterally responded to the spectral variation; and (ii) responses to the temporal features were weighted towards the left, while responses to the spectral features were weighted towards the right. These findings confirm the specialization of the left-hemisphere auditory cortex for rapid temporal processing, and indicate that core areas are especially involved in these processes.
Here is an excerpt from
a paper by researchers at UCI and University of Toronto:
Our findings of M100 modulation by the shortest gap (2 ms) tested are also in good accord with animal studies of auditory cortical temporal acuity, where gap detection thresholds have been measured using electrophysiological methods to record activity in single or cluster units. A key result of those studies is that the firing patterns of neurons in auditory cortex reflect minimum detectable gap thresholds that are similar in scale (at 2-10 ms) to thresholds measured psychophysically in human [4, 5, 13]. Our MEG findings reported here provide evidence for a similar level of temporal resolution to brief (2ms) discontinuities in sounds in the synchronized neural response of tens of thousands of neurons in secondary auditory cortical fields [10], reflecting neural response properties at the population level in auditory cortex.
Research like this leaves me with the impression that human temporal resolution is highly sensitive, not only when measured psychoacoustically, but also when measured neurologically.
Of course, it does not *necessarily* follow that subwoofer time alignment is audible. But it does seem to indicate that my statements about subwoofer time alignment are not *disproved* by the current state of neuroscientific research.
Bryon
