You are quoting me out of context, in both points. Don't be a Simon. We don't need more stupid irrelevant distractions. Keep to the context please.
No. You specifically said the following:
Then you have to decide if simplistic 'pressure x time' is appropriate, given that 'pressure to risk' is not a linear relationship. example 100 mins at 0.3 ATA, is harmless while 10 mins x 3.0 ATA is a serious risk, but they have the same ISS value. Clearly the risk scale needs a factor / exponential applied to bring stress / risk assessments in line with reality. Maybe something along the lines of 'pressure squared x time' would be more accurate
VPM's critical volume algorithm computes 'pressure x time'. And absolutely not 'pressure squared x time'.
Next problem to solve - how does stress accumulated at say 5ATA depth, relate to stress on the surface? How to transpose whole dive stress into one common pressure scale? Obviously a stress and tissue bubble that started at 5ATA depth with 1 ATA supersaturation, and grew threw Boyles law, time and ascent from 5 to 1 ATA, represents a higher stress than a new 1 ATA stress recorded at the surface. This is why dive stress is far more important than surface stress.
Rereading the papers you suggested, Yount and al use a different algorithm post-surfacing because it simplifies the math and is more conservative. Their words. This is quite the opposite of what you're obviously saying.
There is no out of context on either point.
You know, I must have read hundreds of your posts by now. Well, probably not, to be honest. It gets tedious after a while. They're entirely devoid of information. You know what's not in any of them?
Any VPM argument. Any "physics".
You're quick to claim "bubble physics" to be on your side. And VPM's math to be superior. But you never, ever, develop an argument out of it. You just stick with pretty graphs and exponential compartment 101 and quotes and semantic games. I've come to the conclusion that you actually don't understand anything about bubble physics or VPM. You just pretend you do.
But you're welcome to prove me wrong.
Cheers,
Matthieu