Well, first, I'm not making a claim, only tossing a wet noodle mechanism at the wall to see if it'll stick.
I think canalizing flow is missing 2 key components of the mechanism I proposed: 1) composition and 2) dampening edits or negative reinforcement. (1) is less important. I think I could steelman your weaker form of composition well enough say it's a member of this class of mechanisms. But (2) is important. Canalizing flow is positive reinforcing. But the point of a feedback loop (and iteration as opposed to instantaneous composition) trying to capture *lost opportunity* is to lower the chances of following the same path next time and raise the chances of following a different path next time. To map back to a vernacular "free will", this mechanism implements it by *regret* and post-hoc rationalization. So, to coerce it into some kind of canalization, at a bare minimum, the mechanism would need some force for mixing or heat, some way to scramble *against* positive reinforcement. But that would only be a force for neutral distributions ... e.g. "If I had the chance to do it all over again FRESH". That doesn't go far enough. To capture lost opportunity and regret, we have to have "If I had the chance to do it all over again KNOWING WHAT I KNOW NOW". This is why I included the scaffolding for pattern matching and iteration. The mechanism has to be able to exhibit negative feedback. On 6/20/20 9:31 AM, Jon Zingale wrote: > Glen's Claim: > a) a mesh of parallel processes evolving in time > b) each process has a local branching structure > c) these branches (and the events that walk them) compose > d) that composition is monitored and remembered within some scope > e) that monitor/memory is used by a controller to edit the branching > structures > > Heraclitus says: "No man ever steps in the same river twice, for it's > not the same river and he's not the same man." > > From the Eulerian perspective, fluid flowing through a river delta has > many of the characteristics of Glen's theory. We can imagine the river > delta as a mesh of composed local branching structures, whose /events/ > are the ensemble particles of the flow (a,b,c). The flow /monitors/ the > river delta directly, it experiences the changes in gradients and shear (d1). > The flow /memories/ the river delta by acting on the delta directly, it frees > sediment at one stage only to deposit it at a further stage (d2). Through > time, the flow's monitoring and remembering /edits/ the branching structure > of the river delta, giving rise to phenomena like distributaries and important > to our /free will/-discussion delta switching (e). -- ☣ uǝlƃ - .... . -..-. . -. -.. -..-. .. ... -..-. .... . .-. . FRIAM Applied Complexity Group listserv Zoom Fridays 9:30a-12p Mtn GMT-6 bit.ly/virtualfriam un/subscribe http://redfish.com/mailman/listinfo/friam_redfish.com archives: http://friam.471366.n2.nabble.com/ FRIAM-COMIC http://friam-comic.blogspot.com/
