The Source for Invisible Entities in Biological and Non-biological
Systems can be a single Open-loop mechanism within Competitive Instinct. Global
Variables in Biological Systems Pre-programmed Natural Instincts in this
experimental research. An instinctive Behavior Pattern is a specific action
responding to a clearly defined stimulus. Any behavior is instinctive if carried
out without being based on previous experience and learning. An instinct is an
inborn complex paradigm of Behavioral Patterns that must exist in every member
of the Biological Species. Instincts embedded in the genetic code can hardly
vanish by internal and external forces. Biological Systems have more than
thousands of Invisible Instincts, each target ensuring genetic survival.
Vulnerability to fulfill instincts can cause behavioral disorders. Instincts
can be categorized into two instinctual subtypes as follows:
1- Primary Instincts tend to dominate Biological Systems’ attention.
2- Secondary Instincts tend to be an area of some tension and perform
services for Primary Instincts. Biological Systems use Secondary Instincts for
fulfilling Primary Instincts. The primary Instinct in Fig (1) can be a
sustainable competitive advantage, and the Secondary Instincts are Manipulative
Mechanisms. External stimuli in Fig (1) are parameters in a competitive world.
Stimulus parameters are allocated in internal and external Biological
Systems. Active Global Variables receive multiple stimuli about broad internal
and external contexts and return diverse responses to source preferences.
Global variable mechanisms involve three stages of processing. It initiates
with Open-loop (stimulants), prepares for fundamental action (Processing), and
Closed-loop (response).
Global Variables are Primary Instincts in Biological Systems. Stimulus
parameters in external competitive environments send a signal for setting an
Open-loop Cycle. Parameter activation would challenge Biological Systems to
prepare action for Closed-loop Operation.
Biological Systems face significant critical shifts in competencies for
closed-loop operation because of Parameter Complexities in external
environments. The Secondary Instinct targets issues in Social Contexts for
achieving a Closed-loop Cycle. Side-effects of the Secondary Instinct can modify
social parameters on the evolutionary path of system performances. Contagious
parameters on the evolutionary way spread to subcomponents and associated
integrated systems (1), (2).
Observation:
Parameters in religious options associated with specific Instincts would
modify External Stimuli, which are instances of the Primary Instinct.
Observation:
The Secondary Instinct requires performing for Primary Instinct and
Closed-loop (response). However, a reflex is a simple response of an organism
to a specific stimulus. A reflex is an automated mechanism in which Biological
Systems are hardly involved in any actions, such as pupil contraction in
response to bright light.
Observation:
Basic Instincts embedded in Biological Systems become
instance threads of Primary Instinct from the first minute after birth.
External Stimulus becomes instance threads of Primary Instinct on the
evolutionary path of systems performances. External Stimulus activates and
develops in environments of Biological Systems. The activation pattern depends
on two-parameter criteria. Time Interval and Environment Batch Parameters can
determine how fast and vigorously a single External Stimulus can modify the
Primary and Secondary Instincts. (Fig 2)
Time Interval and Environment Batch Parameters can
determine how fast and vigorously a single External Stimulus can modify Primary
and Secondary Instincts. Fig (2)
Observation:
Retrieving the inherited parameters from
ancestors, associated genetic settings, and reflections of cultural parameters
can modify Competitive Instinct.
Observation:
Biological systems from different religious
backgrounds, which seem to be obsessed with austerity mode, can attenuate the
strength of Competitive Instinct. Besides, acquiring such a system property can
pave the way to modifying both internal and external stimuli. Death signals
minimize functions that explore Competitive Instinct.
Biological Systems with some functional handicaps have
hardly active Competitive Instinct. For example, a blind man has barely active
Competitive Instinct.
Observation:
Biological Systems with strong Competitive
Instincts are always in stress mode for losing and gaining competitive
advantage. Inconsistent stress mode can identify a possible cause of
implementing artificial and unethical manipulation in Non-Biological Systems.
Observation:
Competitive Instinct is a Network in Subconsciousness,
and it contains many Instincts. It is a Primary Instinct with external stimulus
characters. Competitive Instinct activates and develops through Social
Attractions and Environmental Impacts. Activation of Competitive Instinct
initiates with Envy Mode or the first cycle and Primary Instinct. It develops
during childhood and adolescence before maturation. The next cycle is
Competition Mode, which may appear concurrently with the first cycle in
Biological Systems.
Personal Characteristics, Cultural Roles,
Environmental Interactions, and Genetic Parameters modify Competition Mode on
the evolutionary path of life. The result of reference model modification to
the Competition Mode is Competitive Instinct.
Observation:
According to an observational study, Invisible
Entities generate and spread into Non-Biological Systems through pre-programmed
Competitive Instinct in Biological Systems.
Biological Systems can gain a competitive advantage through
complex manipulative techniques in demanding competitive environments. Complex
Manipulative Techniques are hardly cost-effective, and many manipulative
parameters impede ethical performances. Multiple parameters algorithms in
Complex Manipulative Techniques modify Harmonic Balance in Biological systems.
Success factors for handling the Competitive Instinct
can be articulated by Ethical Global Variables in Non-Biological Systems.
Articulated ethical codes can maximize Harmonic Balance in Biological Systems
and minimize activities of Competitive Instinct to norm force value.
Observation:
Trends in several social scenarios explain that secondary instincts
integrate with ethical parameters because of achieving a Closed-loop Cycle.
Secondary instincts explore ethical parameters for protecting the perception of
aggressive behavior. However, secondary instincts may hardly embed ethical
parameters for creating Harmonic Balance in Biological Systems. Systems Owners
exploit these paradoxical processes concerning Social Development.
Observation:
System owners can impose multiple complexities in system platforms for
using compatible strategies. They would optimize parameter settings, target
system stabilization, and adjust the trade-off between the complexity of
structure and economic perspectives.
Observation:
Competitive Instinct and Hypocrisy Instinct would employ Systems Owners
to Demonize Opponents and remove Hazard Factors through Ethical Principles and
Humanitarian Settings.
Observation:
Systems Owners may sometimes be obliged to explore Ethical Principles
for protecting contextual integrity. It is cost-effective to demonize opponents
by setting them up for unethical behaviors; however, it causes complexity on
the evolutionary path of system performance. According to an observational
study, a strategy of demonizing opponents has increased in Hierarchy Layers
during the past several years. One of the side effects of pursuing such a
strategy is a Cynical Attitude toward politics.
