This Interdisciplinary Research focuses on the algorithmic structure
beyond the Grief Instinct and Functional Mechanisms underlying Iceberg Cells.
Grief is a deep emotional response to a loss in life, and it can trigger a
sense of sadness or anxiety, which perpetuates a Chemical Imbalance in the
Brain Framework. External stimuli can activate Signal Code within the Grief
Instinct and generate the Open-loop Cycle. The default Mechanism of Grief
Instinct automatically provides dedicated Closed-loop Cycle conditions and
sustains Harmonic Balance in the Biological System.
Random numbers of external stimuli with various permutation algorithms
can cause an Open-loop Mode. Therefore, the Default Mechanism of Grief Instinct
can hardly run a Closed-loop condition for multiple types of external stimuli. Survival
Instinct can identify Multiple Optimal Instincts with the shortest execution
time for Closed-loop conditions. The Survival Instinct can call and substitute
considerable new Instincts with the fastest possible execution time when the
present operative Instinct encounters suboptimality and stability issues in
Closed-loop performance. Each substitution implies a Cycle of starvation
beyond the Grief Instinct.
The Black Box Testing Method exploits identifying Algorithmic Patterns
beyond the Grief Instinct, Functional Mechanisms underlying Iceberg Cells, and
Operational Process Framework of the Instinct Component. A tragic event and
loss of someone or something on the evolutionary path of life can generate
a Signal Code for the Open-loop Cycle within the Grief Instinct through the Centralized
Nervous System. The Open-loop Cycle transfers the Negative Return Code through
Wave Frequency from the Subconscious Component to the Brain Framework and the
entire body of the Biological System. Harmful Return Code perpetuates a
Chemical Imbalance in the Brain Framework and Biological System. A human can
experience an overwhelming feeling of sadness or anxiety. (Fig 1)
Functional Mechanisms of Grief Instinct automatically set its Default
Source Codes for Closed-loop Mode when external entities in Social Contexts
stimulate Grief Instinct and create Open-loop mode within Grief Instinct. (Fig
2)
The default Mechanism for Closed-loop within the Grief Instinct
transfers Positive signals from the Subconscious Component into the Brain Framework
through a specific Wave Frequency. The Positive Signal modifies the Biological
System to provide Grief Relief and keeps a positive attitude. The Positive
Feedback Signal from the Biological System returns to the Grief Instinct and confirms
Harmonic Balance in the Biological System. (Fig 2)
Biological systems may hardly go through the right Harmonic Balance and
Grief Relief when the Default Mechanism for Closed-loop within the Grief Instinct
transfers Signal Codes to the Brain Framework. It implies an unsupported Default
Key for Closed-loop within Grief Instinct. Algorithms beyond Default Protocol
within Grief Instinct could barely respond to complexity in Social Contexts.
Therefore, the Grief Instinct enters an Open-loop Condition, and starvation
mode stays long-term.
In the case of Open-loop mode within the Grief Instinct, Source Codes of
the Grief Instinct call algorithmic Codes within Iceberg Cells for Closed-loop
Feedback. Adapted Harmonic Balance between the Superego and Ego Framework called
the network of Cooperative Instinct for Closed-loop mode. The Network of
Cooperative Instinct attenuates noise and complexity within Grief Instinct and
provides a Closed-loop Cycle mode. The network of Cooperative Instinct is
defensive and explores Logical Codes for the Closed-loop Cycle; consequently,
the Open-loop condition goes into Closed-loop operation in the short term. (Fig
3)
In the case of Open-loop mode within Grief Instinct and a non-adapted
Harmonic Balance within Iceberg Cells, the Source Codes of Grief Instinct are called
algorithmic Codes within Iceberg Cells. Functional Mechanisms in Iceberg Cells
called Network of Competitive Instinct for Closed-loop Feedback mode. The
Network of Competitive Instinct can impose and provide the Closed-loop Mode
quickly. The Network of Competitive Instinct can possess an Incompatible
Property type with Grief Instinct. Therefore, the imposition of the Closed-loop
Mode is complex, and it causes side effects and the Irrational Decision-Making
Model on the evolutionary path of life. The Network of Competitive Instinct is
offensive, and Logical Codes can hardly explore the Closed-loop Cycle. (Fig 4)
Algorithmic Codes beyond the Network of Competitive Instinct produce
Starvation Mode within Grief Instinct. The feedback Control System in Grief
Instinct has a deadlock in identifying Algorithmic Parameters within the
Feedback Signal, which transfers from the Network of Competitive Instinct.
Therefore, a halt can move the signal code into Inputs Mode for further
modifications. The Receptor may hardly match modification codes within Grief
Instinct. Sensor Framework perpetuates Signal Codes to Feedback Control System
for selecting a new control in the second Cycle. Open-loop Mode can produce
multiple cycles at a specific time interval. Grief Instinct goes into Open-loop
Condition and starvation mode in the long term. (Fig 5)
Algorithmic signals from the Network of Competitive Instinct can
sometimes develop an innovative Closed-loop condition for the short term. The
closed-loop operation would eventually develop a specific understanding;
however, illogical codes in Closed-loop mode generate intricate Decision-Making
Patterns within Social Contexts on the evolutionary
path of life. Most Instincts in the Network of Competitive Instincts have
aggressive operational postures. (Fig 5)
The grief Instinct in Starvation Mode calls for the Survival instinct
for help while showing a new tragic event or loss within Social Contexts.
Signal Code transfers from the Brain Framework and the Centralized Nervous
System to the Grief Instinct. Interrupt Request Feedback for Closed-loop Cycle
perpetuates from Grief Instinct to Survival Instinct. The Signal Code contains
comprehensive Data Property of Grief Instinct in Starvation Mode and
Interruption Scenarios based on the Closed-loop Cycle.
Survival Instinct transfers a signal to the Subconscious Component and
requests Closed-loop conditions within the Grief Instinct. Survival Instinct can
select a Specific Instinct for rescuing Grief Instinct and embarking on a
recovery process. (Fig 6)
For example, X Instinct, which can possess genuinely Incompatible
Property types with Grief Instinct, would nominate to provide a Closed-loop
Cycle. X Instinct might be selected by Survival Instinct for Starvation Mode
Recovery because it has the shortest execution time than other Instincts. On
the contrary, X Instinct can create a complicated Decision-Making Model due to
Incompatibility. (Fig 6)
The Logical Code may need
to be more encapsulated in the Decision-Making Map because a Strong Ego and
Competitive Instinct within the Subconscious Component involve
the Decision-Making Process. The Decision-Making Model always generates Negative
Signals and transfers them to the Grief Instinct for Closed-loop conditions.
Therefore, Complex Social Behavior can evolve in Social Contexts due to the
sizeable offensive operation of specific instances. The Outcome of Grief can
result in many unique processes or tragic events. (Fig 6)
Observation:
Instincts with the shortest execution time can barely produce
Closed-loop conditions because the default mechanism, which handles Open-loop
mode, is incompatible with the default mechanism of Instinct in Open-loop Mode.
Instinct with the shortest execution time generates failure pattern recognition
in Decision-Making, and it may hardly be comfortable for the losses in life.
Therefore, it causes complexity in Social Behavior and Social Contexts. The
Survival Instinct selects and calls the next Instinct with the shortest
execution time for Closed-loop Mode. Every time the Survival Instinct calls the
next Instinct with the fastest execution time, it implies a new Open-loop cycle
and starvation mode.
Observation:
The Mechanisms of Open-loop and Closed-loop Mode operate through the
default algorithm, which is pre-programmed within the domain of Instincts.
Observation:
An in-depth grieving process may hinder the Optimal Decision-Making
Process and can emerge with anger, depression, and tragic scenarios.
Observation:
People with a strong Ego would live in Harsh Environments for a long
time because the Ego grows/develops in a broad range of unsteady state
conditions and chaos within the Social Contexts. The most crucial function of
the Ego is to coordinate a sequence of Logical Data with the Superego within
the Conscious Component. Harmonic Dialog between the Superego and Ego perpetuates a
relational data model. A Weak Superego and a Strong Ego create multiple
incomprehensible Decision-Making Patterns.
Observation:
Spiritual lifestyle Development focuses on Invisible Entities, which
modify Harmonic Balance within Biological and Non-Biological Systems and environmental contexts.
Observation:
Invisible Entities can search through the bottom-up approach and Black
Box Testing Method. Researchers try to develop a research model and hypotheses
for handling Invisible Entities.
Observation:
Human is a Spiritual Entity that involves Physical Experiences on the
Earth. Our Physical Experiences on the planet are an instance of Parallel Universes.