We have a Hildago dual net. Something causes a link to merge. That results in the transiton Fn -> Fn-1 on the generalize yield curve. Lower quantization raises the risk of inventory failure. The curve is steeper, but effectively lower rank, less complexity, lower Hildago gowth, entropy not maximized, but inventories growing, delevering, hording inventory to make up for past shortages.
So he micro model has the agent, firm, household, producer,...treating his world as marginal gain within a queueing system, transactions in and transactions out. The anget likely computes his local F number as a shift -1,0,1 computation, depending on a reduction, expansion or equilibrium. So he is lalancing up stream or down stream or he is in the pond, but he adjusts his F number per transaction. So take the Hildago encoder, run it over my home down, FresnoCA; and generate our yield curve, in HTML5
For example, take these maps of the USA broken down by others according to boundaries. I would quantize that as mutual entropy? Can I model that as a F number computed multvarite F number, I get the minimum number steps. Stak the maps up,ona common reference, and just quantize the complets set of referenced boundaries. Rigth there, the resulting maximum entropy F set, can be displayed as an overlay map with N soe finite set of F sequences resoltion. Window it, display it. Then the displayed, maximum entroy boundary can decomposed with my mouse. The F sequence should be the vaiation size at each of the N sequences, in other words, the inverse of the yield curve. You can pull out rates an implicit measure of the commerce rates, along the yield curve, generally for the economy in that region.
1 comment:
hmm interesting
- micro economics and market systems
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