The intricate pattern
between algorithmic codes held within the Subconscious Component and the
physical body is mediated by the proxy Brain Framework. The Subconscious
Component operates on logical codes and decision-making within Consciousness,
while the brain's structure performs tasks during processing cycles and
transmits codes to the designated physical body. The brain oversees all
processing code cycles within its component, toggling and addressing between
open-loop and closed-loop modes of instincts in the Subconscious Component.
The Brain Framework cannot
anticipate subsequent decision patterns, respond to environmental demands, or
comprehend future decision models. Its role primarily revolves around
regulating the current processing cycle between the Subconscious Component and the
physical body.
The brain framework
maintains a holistic awareness of serial decision-making patterns,
incorporating various inference procedure blocks over distinct time intervals.
Identical units and networks in Consciousness/Subconscious Components are
allocated in the brain framework.
While the
Conscious/Subconscious Components and the Brain Framework share identical data
in the units and networks, the brain's complex arrangement of distinct networks
can challenge the seamless integration with the homogeneous networks in the
Conscious/ Subconscious Components. This disconnect necessitates significant
effort and coordination between them, often facilitated by the modulation of
vibrational frequencies.
Executed codes within the Decision-Making Map vibrate through
frequencies.
The following five synthetic processes in drinking water scenarios
delineate the iterative cycle of instincts guiding a singular action. As each
successive process resonates, it establishes a handshake between the Conscious
Component and the Brain Framework, facilitating the delivery and storage of
information within the brain's memory. The brain framework comprehends the entire
process and can anticipate the next iteration cycle. (Figure 1)
1- Walking ten yards towards the water bottle behind a door.
2- take a key from the table to open the door.
3- Open the door with the key.
4- Pick up the water bottle on the shelf.
5- Drinking water.
During the initial phase, the brain's memory allocates algorithmic
codes from the Subconscious Component and encodes them for transmission to the physical
body. In the subsequent phase, the outcome of actions in social contexts is
conveyed and informed to the subconscious component through the brain framework.
Frequency bands of the Conscious Component categorize and segregate
the memory system in the Brain Framework as a primary cache. Analogical
algorithmic codes daily from Consciousness can replicate actions through a physical
body. Persistent data can be labeled and stored within cells and recalled for
reuse or swift decision-making processes.
Nonetheless, the brain framework cannot predict subsequent decisions solely
based on previous attributes of the subconscious and conscious elements.
(Figure 2)
Observation:
According to the research hypothesis, secondary memory, nestled within the Conscious
Component, securely retains data for longevity. The Brain Framework's primary
memory holds daily data temporarily for a limited period. In the event of
biological system extinction, daily data seamlessly migrate from primary to
secondary memory within the Conscious Component.
Observation:
The intricate dynamics of social contexts and humanity’s strategies
for navigating challenges and solving problems in the universe can be
understood and addressed beyond the limitations of traditional academic
research. By creating a research platform that blends the boundaries of
academic analysis with a collection of fascinating insights, principles, and
universal truths, we can significantly contribute to the advancement of
humanity.
Observation:
Optimal algorithmic codes within the decision-making map depend on
achieving a harmonic balance between the Ego/Superego frameworks, ideally
activated instincts, and eliminating outdated open-loop instinct cycles.
Observation:
An optimal alignment between the Subconscious/ Conscious Components
and the brain framework is required by a universal relationship that defines accurate
compatible attribute type settings of each element within them. A default set
of attributes can represent values of counterpart units in their domain, and a
set of resilient encapsulated algorithms can revive/ promote possible complex barriers.
Observation:
The domain of the brain's framework can undergo disturbances and
modifications due to deterministic chaos factors within internal and external
boundaries. Complexity arises from various sources, including the physical body
(internal) and factors beyond the realm of subconscious and conscious
components (external). Environmental influences can also impact the physical
body. When multiple aggressive instincts are active and perpetuated, they can
generate and deploy unexpected phenomena, manifesting as unfriendly code patterns
within the Decision-Making Map. These patterns function akin to malware
behaviors within biological systems.
Observation:
External
stimuli can engage cognitive processes beyond instinctual reactions,
incorporating algorithmic patterns into decision-making frameworks for various
life situations to accomplish objectives. A solitary real-world action may not
readily trigger instinctual responses. The stored data within the brain's
memory unit, a facet of the Subconscious Component, can facilitate and execute
tasks in reality without the direct engagement of the Subconscious Component.
Observation:
External stimuli can kick-start the open-loop phase within
instincts, and the processing cycle of instincts initiates a sequence of
actions that must be followed through without interruption to achieve
closed-loop conditions. These processing cycles extend from instincts beyond
the subconscious component, resonating within the brain's framework through
frequency vibrations. The brain's memory can retain and be aware of the multiple
processing cycles of instincts.
Observation:
By integrating with a robust central system, biological and
non-biological subsystems can enhance community resilience by reducing
vulnerability. Within this framework, individual subsystems can assume
responsibility for addressing traumatic events while striving towards a
cohesive vision. However, these subsystems operate within the broader context
of global variables and system regulations, adhering to the invisible
parameters dictated by the central system. These subsystem elements’ consciousness
may undergo multiple open-loop cycles, often experiencing confusion as they
navigate their decision-making models within a more extensive system.
The concept of Goodwill towards nature and humanity is signified by an
optimal Network of Cooperative Instincts in the Subconscious Component. Humans
in aggressive environments possess a vigorous Network of Competitive Instincts,
so decision-making maps hardly capture and perpetuate friendly instincts. A
gesture of Goodwill as a generous act of kindness can appear and commit to the
standard foundation of harmonious social justice with the equality movement.
Resilient Logical Data in the Conscious Component and an optimal Network
of Cooperative Instincts can support and ensure comprehensive improvement
within the domain of old Open-loop cycles beyond Survival Instinct and an
aggressive Network of Competitive Instincts for making friendly decisions.
Observation:
System designers can adjust the inherent traits of both Biological and
Non-Biological systems to adapt and synchronize with evolving external
environments. Conceptual design relies on logical frameworks and the integrity
of system operations. However, alterations to default codes can lead to
unexpected outcomes, resulting in irregularities in conventional performance.
Observation:
The Subconscious Component
houses many arrays of instincts, each serving distinct functional purposes to
perpetuate algorithmic patterns with Logical Codes accumulated over a lifetime
within the Conscious Component.
The external stimuli trigger
an open-loop cycle within the Survival Instinct. The processing cycle, in turn,
may call and activate numerous instincts to execute a single specific task
within the Subconscious Component. These instincts collaborate to form
decision-making algorithms within a complex map.
Different groups of
instincts align to create unique decision-making models, reflecting the
intricate interplay between various subconscious processes.
The erratic social conduct of individuals may incite a paradoxical
response stemming from the clash of numerous aggressive instincts stimulated
within the subconscious and conscious components.
