An algorithm can manifest multiple instances of thoughtful threads and
operational functions as a mirror for the System Framework. Algorithm
parameters have features for a wide variety of implementations. Besides, they
can respond instantly by universe pathways, aggregating codes in a program, and
aligning either single or multiple communication signs.
The most popular Pattern Recognition
Algorithms can be categorized as follows.
1-Designated Algorithm Model: it sets and acts as a bridge for process
model construction in different ways: digital object, interaction mode, profile
integration, implementation plan structure, and “communication signs” according
to the UML diagram (fig 1) in the above section.
2-Genetic Algorithms: algorithm parameters used and energized
by Biological Systems to approach a
particular goal. UML diagram shows more details in
(fig 1) in the above section.
3-Universal Algorithms: an instance of
algorithm parameters is visible in the entire universe and illustrated in the
UML diagram.
4-Algorithms beyond Non-Biological Systems
can be set for automatic mechanism and pattern control functions for Biological
Systems. The low parameter value and set default value are shown in the UML
diagram.
5- Alarm
Algorithm: algorithm parameters set for critical parameter values and error
patches.
Algorithm
parameters can measure and monitor diagnostics signs of insufficiency in the
system. Algorithm parameters can roll back decisive data to a previous optimal
state.
6-Game Algorithms: algorithm parameters set
the mechanism for developing an interactive TV game and a similar type of
stunning game software.
7-
Multi-process Algorithm: Algorithm parameters regulate through Global Variables
and create multi-process for modification of entities and other processes on
the system framework to ensure successful goal achievement.
High-level integrated systems
with a homogeneous environment can establish an infrastructure where
subcomponents and Supply Chain Ecosystems can inherit multi-process algorithms
from hierarchy layers. Complex hidden strategy and vision patterns can be detected
through global algorithm paths or inherited parameters on a local algorithm.
Observation:
External Forces can observe and detect parameter algorithms on
associated functions of subcomponents and the Supply Chain Ecosystem. External
Domains may launch appropriate counterattack tactics without directly involving
opponent agencies and local communities. The multi-process algorithm model
makes a pragmatic inference to respond to complicated competitive environments;
besides, it saves costs and time for opponents.