At the start of the system’s activity, the cells in the cell-space are in the base state. The sensor-cells connected to the channel-seed...
At the start of the system’s activity, the cells in the cell-space are in the base state. The sensor-cells connected to the channel-seed-state-cells.
During the evolution of the cell-space (the influence of stimulation) the channel-seeds grow channels built on the primer structure. The channels contact each other and the effector cells creating a complex net, the secondary structure builds up. If the connecting pathways active at the same time, association gates are formed between them and later either channel activity can create an activity (with lower intensity) for the other channel through this gate.
If primary critical stimulus exists in the cell-space (the system have to create an intervention), the same time active channels create gates to the connected effector cells and through these gates the channel’s activity cause activity to the connecting effector cells (creating secondary - which has an answer - critical stimulus). These effector cells can be stimulated by other active channels which are in association connections with the gate connected channel.
If not the proper effector cells found (not the appropriate reaction effected to the primary critical stimulus) new stimulus-carrier-gates builds up continuously (because of the channels' grow and the primary critical stimulus exist) until the proper answer found. After it found, the primary critical stimulus ceases, the creation of new effector-gates stops, cease the activity of the primary critical sensor cells, and the connected channels.
If not, or not only the successful answer generated by the effector gates are created on the stimulus routes to cease the primary critical stimulus then only those structures stay by the forgetting and repetition which generates the successful triggering effect. As long as the suitable sensor-effector connection exists, the given primary critical stimulus won’t be present or will be ceased immediately, only the repetition and forgetting has an effect on this structure. If the forgetting terminates this structure, the primary critical stimulus can appear again and stays active until the suitable connection found again. The unnecessary structures destroyed by forgetting (become base-state cells).
Stimulating any of the stimulus channels which are connected to each other in different palaces, the given stimulus can go around (but continuously weakened manner) in these channels through the association gates until it ceased. This way realized the short-term information storage function.
Long-term memory is equivalent to the secondary structure, the channels, and its connections.
The system is extremely redundant. If a cell becomes faulty, it won't disturb the spread of the stimulus (the stimulus can go around the inactive cell), or if the cell originally was a gate-cell, later will be another gate from another cell. Of course, if the defective cells are too many then the system’s function will suffer.
How successful an UAA-system’s work depends on the number of the cells, those working frequency, the primer structure’s complexity, and the efficiency of the change function. The account of the stimulus strength is an important rule of how an UAA-system works.
The stimulus strength rule takes into account by the frequency-based manner. The sensor cells and all of the built gates have a frequency limit, and the impulses pass through only if this threshold frequency reached. When it is reached the pass-through is without resistance.
(a part of a diploma work of nineteen-eighty-eight)
(a part of a diploma work of nineteen-eighty-eight)
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