ocrampal/organism
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
a1efceb2edd5b4883f02c5797e42049ccb7cbbe5
organism/neuron/TUN-N.md
T

5.9 KiB
Raw Blame History

TUN-N: Modulator

MTP-MTD Behavior: Il TUN-N assieme a BEH-N sono entrambi attivi durante Day. TUN sente la stasi di BEH-N, quando e lontano da uno spiketrain, e contestualizza i comportamenti di TUN.

Il TUN contiene quei behavior di modulazione che non cambiano la somma (fullness + active). La modulazione TUN sposta da fullness a active e viceversa. Ovvero non ce creazione di nuove “forma” di possibilita. Nel caso di SYN, lo spostamento e da possible a “a disposizione” di SYN.

modulator: TUN-N
 contained_by: N

 tub_local:
  - SpikeTrainTraces (fullness: 50x, active: 0x, emptiness: 0x) 
   # intricated with BEH-SOMA

IntegrateTunPossibility: Context

Qui controlliamo di essere lontani da uno spike train. Siamo in Day con BEH.

context: IntegrateTunPossibility

 contained_by: TUN-N
 in_context: Fixed
 rf: 60x

 condition: ( SpikeTrainTraces Empty ) # Day
  out_context: TunPossible

TUN-SYN: Modulator

Qui la PRE e la POST si predispongono per dare le condizioni a SYN di stabilire o eliminare una sinapsi. Per ora questo comportamento lo mettiamo in TUN perche non si tratta di creare o distruggere PRE o POST, ma di rendere disponibile a SYN la possibilita di creare o distruggere una SYN. Durante il Day ce il TUN che mette a disposizione, durante il Night SYN crea o distrugge gli accoppiamenti PRE POST.

ATTENZIONE: Questo e POST e da cambiare, perche ce il passaggio da TubPoss a TubPossSyn a TubAct. E la SYN che passa in TubAct.

Minutes/hours Time Scale

modulator: TUN-SYN
 contained_by: TUN-N

TUN-SYN-AXO-PRE: Modulator

Qui stiamo ragionanando sulla trasformazione fra bottone presinaptico inattivo e bottone attivo, pronto a diventare parte di una sinapsi. Il ragionamento e' locale, e mette a disposizione o toglie un bottone attivo che un altro ragionamento, credo in TUN-WTA, fara' su questo bottone, il bottone postisinaptico e una sinapsi disponibile.

modulator: TUN-SYN-AXO-PRE
 contained_by: TUN-SYN 
 
 modulates: BEH-AXO/expansion/BEH-PRE
# qui stiamo modulando fullness e actual del tub BEH-PRE associandoli 
# a tub_modulation prePos e PreAct. 

 tub_modulation: # in TUN agiamo su fullness <-> active
  - fulMod ( fullness: None, active: BEH-PRE/fullness, empty: 0x )  # riferimento a possible di BEH-PRE
  - actMod ( fullness: None, active: BEH-PRE/active, empty: BEH-PRE/emptiness )  # riferimento a active di BEH-PRE

 context_intricated:
  - TunPossible ( contained_by: TUN-N )

 tub_local:

 tub_intricated:

Context

context: CheckTunSynAxoPrePossibility
 contained_by: TUN-SYN-AXO-PRE

 in_context: TunPossible
 rf: ( active: 60x )

 condition:
  out_context:

Episode

episode: TunSynAxoPre
  contained_by: TUN-SYN-AXO-PRE

  in_context: ??
  rf: 1x

  hypothesis: NOT () AND NOT ()
  action: [ increase,  decrease]
  trace: None

TUN-SYN-BD-POST: Modulator

modulator: TUN-SYN-BD-POST

 contained_by: TUN-SYN
...

Context

Episode

TUN-CHAN: Modulator

Qui si modulano i canali ionici, sia quelli voltage (PRE/POST/SO/altro?) che quelli Neuro (POST/SO(inibitori)). Non si creano o si distruggono (lo si fa in Developing), ma si rendono attivi disattivi quelli presenti.

Minutes/hours Time Scale

modulator: TUN-CHAN

 contained_by: TUN-N

TUN-PRE-VGCC: Modulator

modulator: TUN-PRE-VGCC

 contained_by: TUN-CHAN

 modulates: BEH-PRE/expansion/BEH-PRE-VCGG
  
 tub_modulation: # in TUN agiamo su POS/ACT
   - posMod ( fullness: None, active: BEH-PRE-VCGG/fullness, empty: 0x)  # riferimento a possible di BEH-PRE-VCGG
   - actMod ( fullness: None, active: BEH-PRE-VCGG/active, empty: BEH-PRE-VCGG/emptiness)  # riferimento a active di BEH-PRE-VCGG
# qui stiamo modulando possible e actual di BEH-PRE-VCGG associandoli
# a posMod e actMod. Non serve associare una fullness perche' 
# la modulazione e' una pompa fra posMod e actMod e controlliamo
# solo empty

 context_intricated:
  - TunPossible ( contained_by: TUN-N )

 tub_local:

 tub_intricated:

Context

context: Check
  contained_by: TUN-PRE-VGCC

  in_context: TunPossible
  rf: ( active: 60x )

  condition:  
  out_context: TunPreVcgg

Episode

episode: Tun
  contained_by: TUN-PRE-VGCC

  in_context: TunPreVcgg
  rf: ( active: x )

 hypothesis:  
  action: 
  trace:

TUN-POST-AMPA: Modulator

modulator: TUN-POST-AMPA

 contained_by: TUN-CHAN

 modulates: BEH-POST/expansion/BEH-POST-IC

  tub_modulation: # in TUN agiamo su POS/ACT
   - posMod ( fullness: None, active: BEH-POST-IC/fullness, empty: 0x)  # riferimento a possible di BEH-PRE
   - actMod ( fullness: None, active: BEH-POST-IC/active, empty: BEH-POST-IC/emptiness)  # riferimento a active di BEH-PRE

 context_intricated:
  - TunPossible ( contained_by: TUN-N )

 tub_local:

 tub_intricated:

Context

context: Check
  contained_by: TUN-POST-IC

  in_context: TunPossible
  rf: ( active: 60x )

  condition:  
  out_context: TunPostIc

Episode

episode: ?
  contained_by: TUN-POST-IC

  in_context: TunPostIc
  rf: ( active: x )

 hypothesis:  
  action: 
  trace:

TUN-SOMA-VCGG: Modulator

modulator: TUN-SOMA-VCGG

 contained_by: TUN-CHAN

 modulates: BEH-SOMA/expansion/BEH-SOMA-VCGG

  expansion: BEH-SOMA-VCGG
  tub_modulation: # in TUN agiamo su POS/ACT
   - posMod ( fullness: None, active: BEH-SOMA-VCGG/fullness, empty: 0x)  # riferimento a possible di BEH-PRE
   - actMod ( fullness: None, active: BEH-SOMA-VCGG/active, empty: BEH-SOMA-VCGG/emptiness)  # riferimento a active di BEH-PRE

 context_intricated:
  - TunPossible ( contained_by: TUN-N )

 tub_local:

 tub_intricated:

Context

context: Check
  contained_by: TUN-SOMA-VCGG

  in_context: TunPossible
  rf: ( active: 60x )

  condition:  
  out_context: TunSomaVcgg

Episode

episode: ?
  contained_by: TUN-PRE-VGCC

  in_context: TunSomaVcgg
  rf: ( active: x )

 hypothesis:  
  action: 
  trace:
Reference in New Issue View Git Blame Copy Permalink