finding

active

finding:stress-sharing-embryo-utilized-maximum-competency-of-4725-units-until-generation-400-then-dropped-to-4500-without-sharing-used-100-units

Stress-sharing embryo utilized maximum competency of 4725 units until generation 400, then dropped to ~4500; without-sharing used ~100 units

Links competency utilization to stress sharing and morphological success.

Source paper

extracted_from

Stress sharing as cognitive glue for collective intelligences: A computational model of stress as a coordinator for morphogenesis

(2024) · Shreesha, Lakshwin · Levin, Michael

Neighborhood — ranked by edge-count

Claims (1)

claim

Stress sharing is an easy way to achieve robustness in collectives made up of homeostatic subunits.
supports
Generalization of the model's implications.

Related by similarity (8)

cosine ≥ 0.65 · no typed edge

Entities in the same semantic neighborhood but without a typed relation to this one — candidates for new edges or unrecognized duplicates.

Stress-sharing embryos achieve perfect sequential target patterns; non-sharing limited to <1% improvement.finding0.839
Stress-sharing embryos formed each sequential target with stress reducing to zero; non-sharing achieved only tiny improvements.
In stress-sharing embryo, average stress reduced to zero at step 40 during sequential target morphogenesis; without-sharing stress settled at non-zero with <55 cells movingfinding0.836
Shows stress sharing allows perfect formation of part-by-part target patterns.
For 20x20 grid, stress-sharing population reached max phenotypic fitness by generation 100; hardwired reached max at generation 1000; without-sharing never reached maxfinding0.826
Demonstrates benefit of stress sharing across smaller grid complexity.
Radius of influence in embryo with stress sharing: 30 units at step 1 decreasing to 0 at step 85; without sharing: 5 at step 1 ceasing at step 10finding0.825
Direct measurement of cognitive light cone enlargement by stress sharing.
Cells in stress-sharing embryo moved average Euclidean distance ~2500 units until gen 400 then ~2400; without-sharing moved ~200 units (30x30 grid)finding0.821
Quantifies how stress sharing enables long-range cell movements.
Stress sharing populations reached target morphology by generation 400, significantly faster than hardwired (1000) or without-sharing populationsfinding0.814
Stress-sharing enables cell movement over longer distances (~2500 units vs ~200 units without sharing).finding0.799
Stress-sharing cells moved average Euclidean distance of ~2500 units, vs ~200 units in non-sharing populations.
Stress-sharing increases radius of cellular influence: ~30 units avg (step 1) vs ~5 units (non-sharing); lasts 85 steps vs 10 steps.finding0.793