Beyond the Conscious Component, algorithmic codes can control and
transmit vital logical data into the decision-making map when consciousness
maintains harmonic balance and the external environment contains peaceful circumstances.
Sensory Analysis Cells with receptor frameworks within a single instinct structural
mechanisms can control processing signals from inputs and determine whether external
codes achieve Closed-loop conditions or if there is a need to conduct an
open-loop cycle.
Instinct is an innate, complex behavioral paradigm in all members of Biological
Systems. It embeds genetically pre-programmed codes within the Subconscious Component,
enabling the execution of structural algorithms. Social context parameters can stimulate
and influence every single instinct structural algorithm codes and adjust
functional mechanisms through two instinct modes: active/ inactive state
combinations. Most repeated behavioral patterns are instinctual and do not
require deep comprehension. Biological systems possess thousands of invisible
instincts, each critical in genetic algorithm survival.
The Superego Adjuster in social contexts provides optimal ethical
parameters and, as input codes, can be absorbed into the domain of logical data
within the Conscious Component when processing codes in the Subconscious Component
achieve a closed-loop state. Additionally, logical sensory analysis evaluates
satisfactory experiences and performances in social contexts. The accumulated
logical data can then be stored and utilized to stimulate future cycles within
the decision-making map.
Eventually, the logical domain of consciousness assigns ethical principle
codes and optimal threading algorithms, shaping intelligent experiences.
External environments can activate friendly instincts while suppressing
aggressive ones, or vice versa.
The functional mechanisms of instinct operate through three processing
phases:
1-Open-loop: Initiation triggered by stimuli from external environments.
2-Processing: Preparation for central action through the brain and physical body.
3-Closed-loop: Code execution through
the response from the physical body.
Observation: Open-Loop Instinct and Decision-Making Patterns
A prolonged Open-loop Instinct cycle can lead to complexity, resulting in
an extreme, austere, isolated instinct resembling a starvation mode. When an
instinct remains isolated for an extended period, it can alter decision-making
models and social behavior patterns. Instinct outbreaks contribute to the
formation of complex parameter maps along the evolutionary trajectory of human
life. While most instincts remain inactive, environmental factors activate them
at different intervals.
Following consistent algorithms, pre-programmed instinct cells do not
inherently develop new functional capabilities or enhance progressive neural
mechanisms. Without a coherent harmonic state within the conscious framework,
unethical algorithmic parameters in social contexts may perpetuate negative
signals within the Sensory Analysis System that, in turn, could activate
destructive instincts while suppressing beneficial ones.
Positive signaling inputs from the Sensory Analysis System to the
Instinct Domain may be blocked by Open-loop Instincts, particularly in cases of
extreme, austere, and isolated cycles. The Open-loop mechanism prevents
incoming signals and feedback from the logical domain of consciousness. Certain
instincts, exhausted by past extreme isolation, may persist within the domain
of an old Open-loop cycle (Fig. 1).
The status of an instinct is active/ inactive and can be allocated in the
domain of old Open-loop cycles. The characteristics of instincts may
significantly influence decision-making patterns. However, The fundamental source
code of instinct characters can be compared with the decision patterns of humans
during ancient times (Fig. 2).
Key Principles Influencing Decision-Making Models:
1-Algorithmic parameters within social contexts.
2-Harmonic state possesses
within the Conscious
Component.
3-Instinct status can be
(active or inactive) within instincts.
4-The number of old Open-loop
cycles of instincts encapsulated (extremely
austere isolated instincts).
5-The duration of Open-loop cycles (short or long) can
influence optimal decision patterns.
Maintaining high-quality decision-making models and balanced social
behavior patterns requires achieving sustainability among these principles
within the conscious framework and social contexts. Otherwise, decision-making
outcomes may regress into primitive patterns. For instance, a highly
competitive social environment can generate and perpetuate complex algorithms
within the instincts, and signal-processing mechanisms do not respond because
the harmonic state within the Conscious Component is reduced significantly
(Fig. 2).
Additional Observations:
1-Instinct activation and deactivation occur through social contexts and consciousness.
2-External influences, such as psychological interventions in
psychotherapy, can enhance signal processing between the Sensory Analysis
System and the Instinct Component by reinforcing Closed-loop Instinct
conditions.
3-However, Closed-loop Instinct Cycles remain highly vulnerable to
reverting to Open-loop Instincts in subsequent cycles.
