(AGS) Artificial genetic sequencing may create new life forms.
(Before It's News)
Extraordinary (Artificial Intelligence/ADNA)
Artificial genetic sequencing may create new life forms.
In the future an extraordinary intelligent system will be produced and deployed in robots for use in deep space exploration (and this critical). These intelligent systems will be more complex then any robotic technology being perceived or developed today. These advanced systems will contain a new form of artificial DNA that provides these systems with the capability to adapt more readily to various environments. This objective will be accomplished using special microelectronic and electrochemical technologies that mimic and replicate artificial cellular production, and likewise forms artificial genetic sequences and resulting ADNA. A brief description of this technology is described and illustrated hereafter.
This intelligence system and structure is divided into (5) levels of growth and distribution, whereas level-1 (parental L1), level-2 (cellular groups/subsystems L2), level-3 (systems L3), level-4 (the brain L4), and level-5 (universal L5).
Brief overview of this extraordinary technology,
Parental cellular units extract (need) inputs, and in doing so produce individual cells whose objective is to pursue other (inputs) or variations as to fulfill these needs. The parental cellular units of (level-1) will produce “artificial cells”, where the commonality among these cells is used to mimic cellular bonding and thereby creating an artificial biological cohesion. The cohesion of these cellular structures will produce the subsystems necessary for self sustaining and fulfilling the needs for environmental adaptation (or otherwise using microelectronic and electrochemical interfaces for such purposes). In (level-2) of this intelligence system, bonding is formed between various parental cellular units using a process known as “bridges of commonalty”. These interconnections and resulting sequences are used to form cellular groups with specific and shared common needs. This process in part is used for the early development and formation of genetic structures for which later will form “subsystems”. The commonality among variations (or inputs) of the cell groups produced by the parental units is used for measuring input consistency. Those cells not consistent amongst the group will be placed into some temporary stage known as “hibernation”.
The cellular stage of hibernation is due to the rejection of various inputs (variations) based on genetic sequences and common needs, and the inability to “adapt” within the environment, or otherwise cellular adaptation for biological cohesion. When cellular bonding reaches (level-3) some “system” is formed from earlier cellular bonding of subsystems, whereas these newly formed systems contain specific genetic sequences with structural formations and needs. The level of cellular hibernation will determine rejection or whether further variations (inputs) are necessary for commonality and likewise adaptation. Hibernation of this type evolves through stages as to form emotions through electrochemical influences (interface). Influences are the adhesion (biological cohesion) that starts integrating these cells, cell groups, and subsystems to form additional “structured needs”. Thereafter (level-4) is the formation of the ‘brain’ where all these subsystems are integrated to “function as unified system”. Cellular hibernation evolves as an involuntary response associated with electrochemical inputs for emotional response, other types of emotions are voluntary and these based on viable options (input variations) to needs. And lastly, the cellular to subsystem formations have specific genetic sequences and code (residual and active memory). The integration of these genetic structures into this system creates the formation of an Artificial DNA.
What is being illustrated?
The basic model for creating an (Artificial DNA with Intelligence).
The above described is merely a sample of what is far more complex.
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