Difference between revisions of "Drives"

From SIMA wiki
Jump to: navigation, search
(Satisfaction complex drives for non atomic ations)
 
(7 intermediate revisions by the same user not shown)
Line 3: Line 3:
 
In following figure an overview of the drive cyclus is given.  
 
In following figure an overview of the drive cyclus is given.  
  
[[File:Triebzyklus2.png|600px]]
+
[[File:Drive_satisfaction.jpg|800px]]
  
 
First...
 
First...
Line 16: Line 16:
 
The level of the tank defines the strength of the corresponding drive. The generation of the drive data structure depending on the tank fill level is in F48.
 
The level of the tank defines the strength of the corresponding drive. The generation of the drive data structure depending on the tank fill level is in F48.
  
Following figure describes *3 of the overview-figure
+
Following figure describes the connection of the libido soucre an the sexual drives
  
 
[[File:Sexual_Drives.png|600px]]
 
[[File:Sexual_Drives.png|600px]]
Line 31: Line 31:
 
For actions with direct effect on the body we detect these effect as a change of the values of the internal body sensors (self preservation drives - e.g. the action eat changes the blood sugar value) or as a signal out of the erogenous zones (for sexual drives)
 
For actions with direct effect on the body we detect these effect as a change of the values of the internal body sensors (self preservation drives - e.g. the action eat changes the blood sugar value) or as a signal out of the erogenous zones (for sexual drives)
  
Following figures describes *1 and *2 of the overview-figure.
+
Following figures describes the feedback via body systems
  
 
[[File:Body_feedback.jpg|800px]]
 
[[File:Body_feedback.jpg|800px]]
  
=== Satisfaction of complex drives ===
+
=== Satisfaction complex drives for atomic actions ===
 
To detect the execution of complex actions(with no direct effect on the body) we us the visual perception.  
 
To detect the execution of complex actions(with no direct effect on the body) we us the visual perception.  
 
Each action executor stores the action as a part of his own entity. The vision sensor detects his own body as entity with the included action. So it is possible to attach the perceived action to the self object.
 
Each action executor stores the action as a part of his own entity. The vision sensor detects his own body as entity with the included action. So it is possible to attach the perceived action to the self object.
  
 
The module F45 uses the self object with the attached action to satisfy (depending on the memory) the corresponding drive.
 
The module F45 uses the self object with the attached action to satisfy (depending on the memory) the corresponding drive.
 
This corresponds to *4 and *5 of the overview-figure
 
  
 
Erinnerungssuche, welchen Trieb die wahrgenommenen Aktion mit Objekt reduziert und in welchem Ausmaß
 
Erinnerungssuche, welchen Trieb die wahrgenommenen Aktion mit Objekt reduziert und in welchem Ausmaß
 
Searchpattern: Triebziel (wahrgenommene Aktion bei Self), Triebobjekt
 
Searchpattern: Triebziel (wahrgenommene Aktion bei Self), Triebobjekt
 +
 +
 +
=== Satisfaction complex drives for non atomic ations===
 +
The execution of non atomic actions like devide cannot be detected via the vision sensor. Because at this stage it is not possible to detect a sequence of actions. So the satisfaction is executed as a consequence of the end of an act. The satisfaction is calculation in the act analyses function. A [[consequence codelet]] is triggered if an act is finished. Within this codelet the drive buffer is accessed to satisfy the associated drives. This drives are read out from the intention of the act. The satisfaction value of each drive is read out from the ontology. To each drive a "psychic satisfaction" value can be stored to enable this satisfaction.

Latest revision as of 07:42, 5 August 2014

Overview

In following figure an overview of the drive cyclus is given.

Drive satisfaction.jpg

First...

Details are given in the respective figures.

Drive Generation

We distinguish between sexual and self preservation drives. Self preservation drives are connected to signals from body systems (e.g. stomach system). Sexual drives are powered by the libido.

Sexual Drives

There is a buffer for each drive component of each sexual drive. The buffer works like a tank (see picture below). The generated libido stream is divided and defines the inflow of each tank. These division is based on the personality parameters. We use the signals from the erogenous zones to reduce the tank level. The reduced amount is accumulated to the pleasure. The level of the tank defines the strength of the corresponding drive. The generation of the drive data structure depending on the tank fill level is in F48.

Following figure describes the connection of the libido soucre an the sexual drives

Sexual Drives.png

Self Preservation Drives

As mentioned above the self preservation drives correspond to an input from a body sensor(e.g. the heigh of the blood sugar correspond to the stomach drive). Like the sexual drives they also use a buffer system. The inflow of the buffer is defined by the sensor input, the personality parameters and the signals from the erogenous zones.

Self preservation drives.jpg

Drive satisfaction

To satisfy the drive we either use direct feedback from the body or we satisfy the drive throw the visual perception of the action.

Body Feedback

For actions with direct effect on the body we detect these effect as a change of the values of the internal body sensors (self preservation drives - e.g. the action eat changes the blood sugar value) or as a signal out of the erogenous zones (for sexual drives)

Following figures describes the feedback via body systems

Body feedback.jpg

Satisfaction complex drives for atomic actions

To detect the execution of complex actions(with no direct effect on the body) we us the visual perception. Each action executor stores the action as a part of his own entity. The vision sensor detects his own body as entity with the included action. So it is possible to attach the perceived action to the self object.

The module F45 uses the self object with the attached action to satisfy (depending on the memory) the corresponding drive.

Erinnerungssuche, welchen Trieb die wahrgenommenen Aktion mit Objekt reduziert und in welchem Ausmaß Searchpattern: Triebziel (wahrgenommene Aktion bei Self), Triebobjekt


Satisfaction complex drives for non atomic ations

The execution of non atomic actions like devide cannot be detected via the vision sensor. Because at this stage it is not possible to detect a sequence of actions. So the satisfaction is executed as a consequence of the end of an act. The satisfaction is calculation in the act analyses function. A consequence codelet is triggered if an act is finished. Within this codelet the drive buffer is accessed to satisfy the associated drives. This drives are read out from the intention of the act. The satisfaction value of each drive is read out from the ontology. To each drive a "psychic satisfaction" value can be stored to enable this satisfaction.