Changes in
external environments can introduce chaos and complexity, hindering human
adaptation to unfamiliar lifestyle codes. The standard form of Instinct A often
fails to process incoming functional algorithms effectively, translate request
codes into the decision-making map, or transmit them to the brain framework via
vibrational frequencies, and meet the demands of the physical world.
Consequently, its algorithmic codes are insufficient for operating within
unknown external conditions. When such
challenges arise, the Subconscious Component activates its functional
mechanisms and engages Instinct B within the Network of Competitive Instincts
through the Survival Instinct to facilitate adaptive processing, modify
internal algorithmic structures, and restore harmony according to the
Biological System’s blueprint.
In the case of a collision
course between Instinct A and B and potential
operational failure of Instinct B in the physical world, the Survival
Instinct can call the Hypocrisy Instinct, which is encapsulated in the Network
of Competitive Instincts, to protect Instinct B from the starvation mode and
establish a Closed-loop condition in the Subconscious Component.
This adaptive process progresses through the
following phases, as illustrated in Figure 1:
Mode 1: Instincts A and B conflict as they compete for access
to the decision-making map or the potential operational failure of Instinct B
in the physical world.
Mode 2: The Survival Instinct triggers the Hypocrisy Instinct
to support Instinct B in processing algorithmic codes and resolving adaptation
challenges.
Mode 3: The Hypocrisy Instinct captures, integrates, and
expands into the designated algorithmic codes of the Instinct B framework and instance modules.
Mode 4: Instinct B becomes equipped with the operational
codes of the Hypocrisy Instinct and enters the decision-making map, enabling it
to address demands within the physical world.
Mode 5: When Instinct A struggles with external demands, an
Open-loop cycle initiates a starvation mode behind the decision-making map
after defined intervals. As a result, Instinct A regresses into the Old open-loop
instinct cycles domain and remains locked within the Subconscious Component.
Observation 1:
The Hypocrisy
Instinct arises as a survival mechanism, reinforcing competitive networks and
perpetuating their influence within Biological Systems. Over time, it molds
social contexts into hypocrisy-driven domains, suppressing genuine cooperation
across system environments. Its algorithmic codes are embedded within decision
models and social behaviors, shielding against unfamiliar environmental forces
while allowing individuals to remain insulated from external influence in the
physical world. In the long term, algorithmic codes beyond the Hypocrisy
Instinct may generate concealed chaos and complexity within both Biological and
Non-Biological Systems.
Observation 2:
The Hypocrisy
Instinct is a defensive mechanism that safeguards core instincts when
approaching a deadlock state, such as during starvation. Its algorithmic codes
integrate with the framework of Instinct B to reshape decision-making patterns
and social behaviors, protecting against unfamiliar environmental forces, enabling
individuals to remain resilient, cultivate strong social connections, and be less
susceptible to external influence within the physical world.