aggiunto behavior ms, sec, min

neuron/BEH-AXO.md

@@ -108,16 +108,23 @@ container: BEH-PRE
 
     - CaTraces ( fullness: 50x, active: 0x, emptiness: 0x )
 
+    - mGluR ( fullness: 50x, active: 0x, emptiness: 0x )
+
+    - CDI ( fullness: 50x, active: 0x, emptiness: 0x )
+
   tub_intricated:
-    - NT
-    - ATP
+    - NT # SYN
+    - ATP # AXO?
+    - eCB # from POST
 
   context_intricated:
   - AP ( contained_by: BEH-SOMA ) 
 
 ```
 
-### RRPConcentration: Context
+### ms: behavior
+
+#### RRPConcentration: Context
 
 Il rilascio di NT lo facciamo nel contesto di AP. Biologicamente dovrebbe avvenire solo in base alle concentrazioni, quindi anche al difuori degli AP.
 
@@ -128,14 +135,14 @@ context: RRPConcentration
   in_context: AP
   rf: ( active: 60x )
 
-  condition: NOT (Rrp empty) AND NOT (Rrp full) 
+  condition: (Rrp medium) 
     out_context: RRPMedium
 
   condition: (Rrp full) 
     out_context: RRPFull
 ```
 
-### Ca2MicroConcentration: Context
+#### Ca2MicroConcentration: Context
 
 ```Gen
 context: Ca2MicroConcentration
@@ -144,20 +151,20 @@ context: Ca2MicroConcentration
   in_context: AP
   rf: ( active: 60x )
 
-  condition: NOT (Ca2Micro empty) AND NOT (Ca2Micro full) 
+  condition: (Ca2Micro medium) 
     out_context: Ca2MicroMedium
 
   condition: (Ca2Micro full) 
     out_context: Ca2MicroFull
 ```
 
-### NTrelease: Episodes
+#### NTrelease: Episodes
 
 Ci sono 4 casi che dipendono da RRP, CaMicro e NT. L'idea e' che la quantita' di RRP sia il driver principale. Gli NT liberati sono di piu' al crescere di RRP e CaMicro e di meno al crescere di NT. Gli NT nella sinapsi fanno da moderazione alla ulteriore liberazione di NT, ma non bloccano mai totalmente. NT suppression only matters when everything else is already at maximum — which is exactly the biological purpose: it prevents runaway release during peak activity, not during moderate activity.
 
 ATP cost of Na/K-ATPase recharge on each AP. The cost is per action potential. Here we charge it at every release of NT. This is the dominant ATP drain at high firing rates.
 
-#### NTreleaseMaximum: Episode
+##### NTreleaseMaximum: Episode
 
 ```Gen
 episode: NTreleaseMaximum
@@ -171,7 +178,7 @@ episode: NTreleaseMaximum
     trace: None
 ```
 
-#### NTreleaseHigh: Episode
+##### NTreleaseHigh: Episode
 
 ```Gen
 episode: NTreleaseHigh
@@ -185,7 +192,7 @@ episode: NTreleaseHigh
     trace: None
 ```
 
-#### NTreleaseMedium: Episode
+##### NTreleaseMedium: Episode
 
 ```Gen
 episode: NTreleaseMedium
@@ -199,7 +206,7 @@ episode: NTreleaseMedium
     trace: None
 ```
 
-#### NTreleaseLow: Episode
+##### NTreleaseLow: Episode
 
 ```Gen
 episode: NTreleaseLow
@@ -213,6 +220,22 @@ episode: NTreleaseLow
     trace: None
 ```
 
+### sec: behavior
+
+...
+
+#### mGlur
+
+#### eCB
+
+#### CDI
+
+#### RP->RRP
+
+### min: behavior
+
+#### Refill RP from Glutamine
+
 ## BEH-PRE-VGCC: Container
 
 **Voltage-Controlled Gated Channels**:
@@ -289,20 +312,46 @@ Here we comprehend the breaking activity on VGCC by: CDI,eCB and mGluR:
 - **Suppressed** — two brakes multiplying. The compounding is what defines this zone — no single variable alone produces it (except CDI approaching full). 0.5 × 0.5 = 0.25 remaining is where the synapse starts losing significant transmission efficacy. Biologically this is the pre-silence warning zone: CDI is building from residual Ca²⁺ while eCB is already engaged from postsynaptic activity.
 - **Closed — CDI** = full is the only reliable hard rule. Because CDI can reach 1.0 and appears as (1 - CDI_factor) in the formula, it alone drives conductance to zero regardless of eCB and mGluR state. The three-brake overlap corner case (eCB=full + CDI=medium + mGluR=full) also reaches here, but in practice CDI reaching full is the primary biological mechanism.
 
-#### Ca2+enterFast: Episode
+Devo controllare che le condizioni sotto siano esaustive.
 
-#### Ca2+enterMedium: Episode
-
-#### Ca2+enterSlow: Episode
+#### Open: Episode
 
 ```Gen
-episode: Ca2+enter
+episode: Open
   contained_by: BEH-PRE-VGCC
 
   in_context: AP
   rf: ( active: 6x )
 
-  hypothesis: NOT (Ca2+ full)
+  hypothesis: (CDI empty) and (eCB empty)
+    action: [Ca2+ increase, ATP decrease]
+    trace: None
+```
+
+#### Reduced-partial: Episode
+
+```Gen
+episode: Reduced-partial
+  contained_by: BEH-PRE-VGCC
+
+  in_context: AP
+  rf: ( active: 6x )
+
+  hypothesis: (CDI medium) OR ((eCB medium) AND (CDI empty)) OR ((eCB full) AND (CDI empty) AND (mGluR empty))
+    action: [Ca2+ increase, ATP decrease]
+    trace: None
+```
+
+#### Suppressed: Episode
+
+```Gen
+episode: Supressed
+  contained_by: BEH-PRE-VGCC
+
+  in_context: AP
+  rf: ( active: 6x )
+
+  hypothesis: ((CDI medium) AND (eCB full) OR (eCB medium))
     action: [Ca2+ increase, ATP decrease]
     trace: None
 ```