This case study provides general guidelines for establishing and
maintaining Resilience in Wide Open Enterprises. The main office can control
multiple locations outside national territories. Enterprises can explore
and encapsulate a Homeostatic Controller Algorithm within the Standardization
Information Platform. A Resilient Enterprise can respond to unpredictable
environmental adversity, maximize product usability, and create sustainable
value for customers through a Homeostasis Controller within the Standardization
Portal.
Nature uses the Homeostasis Algorithm within Biological Systems to
regulate value discrepancy from Standard-Setting Operations. Enterprises
(Non-Biological Systems) with broad boundaries require Standardization Platform
Setting (pre-automation algorithms). Standardization ensures proper
value allocation, enforces configuration settings, and sustains consistent
operational quality control. Standardized Non-Biological Systems (enterprises with
multiple locations) can utilize the Homeostatic Algorithm. It contributes to
detecting and regulating value discrepancies from standard-setting
operations.
A decent functional analogy exists between the Homeostasis Algorithm in
Biological and Non-Biological Systems. In both system frameworks, practical
mechanisms beyond the Homeostasis Algorithm can regulate value discrepancy from
standard-setting operations.
The Lack of Standardization within enterprises can tend to cognitive
dissonance within product and customer modules. Consistent quality control in
operations can cause product feasibility issues and customer satisfaction. The
Homeostatic Concepts can encapsulate the Standardization Information Platform
to keep diagnostic consistency and measurement accuracy in system operations.
Eventually, it responds to unreliable environmental adversity and provides
resilience to Enterprises.
Implicit observation pattern tracks integration and collaboration
between the external environment and boundaries of enterprise architecture.
Standardization Information Platform is a strategic coordination framework that
needs to be created and implemented within system boundaries. The following
criteria will be ensured by encapsulating the Homeostatic Controller Algorithm within the
Standardization Information Platform:
1- The best settings for industrial safety
standards.
2- Monitor changes in external
environments.
3- Assess product conformity.
4- Deliver product interoperability.
5- Improve business benefits with good
customer relationships.
Failure analysis in the Homeostatic Controller Model can generate error
codes and modification issues in the Standardization Information Platform
principles.
For example, customers may experience product usability issues because
of coordination constraints and chaotic optimization. Consequently, customers
may confront operational complexity when they contact Global Support
Portals.
Resilient Enterprises must design and align with General Social Contexts
and Homeostatic Controller Algorithms. Successful alignment can fulfill general
criteria and guidance for integrations.
It can support a trade-off between distributed data structures from
external environments and the Standardization Information Platform.
A homeostatic concept can be inspired by Self-regulating Control Systems within Biological Systems.
The homeostatic Controller Algorithm can play a substantial role in executing
successful performances within Non-Biological Systems. The homeostatic Concept
can address process instability and improve self-adjusting mechanisms. An
automated system can identify the Open-loop Cycle in system performances. An
instance of process stability generates a realistic Closed-loop Condition with
the best possible control processing.
In the context of customer structure, standardization implies how
customer departments perform customer services through portal software.
Conceptual Domain beyond Customer Engagement must deploy according to Protocols
in the Standardization Information Platform. (Figure 1)
In the context of Product structure, standardization implies how product
features can be designed and developed to handle compatibility and Social Changes.
(Figure 1)
Enterprises with broad boundaries are vulnerable to modification through
the external environment. Therefore, System Owners implement the
Standardization Information Platform as an intelligent database for
coordinating performance needs. Entire Processes can add a value chain model to
Business Activities. (Figure 1)
The Homeostatic Controller Algorithm is encapsulated in the Standardization
Platform because it stabilizes internal components and Sustainable Development
Goals within Enterprises. It is based on feedback loops and monitoring system
operations (Inputs/ Outputs signals). Besides, it promotes guidance and
responds to unpredictable external changes. (Figure 1)
The absence of integration between Social Structures and Standardization
Information platforms might hamper security algorithms and organizational
interoperability across system boundaries. The external force would generate
Invisible Entities in Social Contexts (Nation C). Instance parameters of
Invisible Entity in Nation C can propagate Invisible Malicious Codes through
five consecutive cycles, and it infiltrates into enterprise subsystems. (Figure
1)
Invisible Malicious Codes might integrate with various departments.
Integration modifies Default Values and Properties of basic operations. For
example, the IT, Economy, and Sales departments can capture complex
Intervention Process Models. Complexity would instantiate abstract guidelines
through entire submodules. (Figure 1)
Integrated Products with Vague Differential Equations would modify the
functional Structure of Product Modules. Modification generates a significant
complexity in the synchronized manufacturing process. Therefore, Product
functionalities and innovations would only fulfill some customer requirements
and basic product quality expectations. (Figure 1)
Vague Differential Equations would be imposed upon the Product Module.
Consequently, two phases of product development might minimize the User Testing
Phase. Project costs and time to market can involve complicated usability
testing and reduce the iterative life cycle model.
Customer integration with Vague Differential Equations would also modify
the Support Portal Platform activities. Call Center Agents may barely respond
to customers' requests through organizational guidelines because Invisible Malicious
Codes modify Customer Service Modules. Modification in support portals would
hinder the powerful conceptual framework in ERP, CRM, and SCM applications.
(Figure1)
Invisible Malicious Codes can integrate into the Supplier Structure. It
generates Vague Differential Equations into delivery resources and raw
materials asset inventory. Service availability level may reduce when
a Sub-supplier Structure adjusts by Invisible Malicious Codes. (Figure 1)
Case study:
The economic sanction against Nation C and
the lack of a Homeostatic Controller Algorithm in Enterprises
Other Nations (External Forces) would impose a range of trade sanctions.
Special Economic Measures against Nation C. Economic Sanctions coordinate
instance parameters in the Social Structure of Nation C. Functional
Modifications (Invisible Malicious Codes) in Social Context can aggregate
within the Standardization Information Platform. The Aggregation Framework (the
first cycle of invisibility) can set an array of complex parameters. Organizational
Structure can adjust (the second cycle of invisibility). Then, the aftermath
may adopt instance parameters in Organizational Structure (the third cycle of
invisibility). Eventually, it can also become self-perpetuating evolutionary
algorithms within subsystems (product usability and customer performances).
(Figure 1)
Raw material Storage Sites, Sub-supplier
Industry, and Logistics Services are in Nation C.
Advantages of Homeostatic Concept in
Resilient Enterprises:
The homeostatic controller targets a standard value key (default value)
and feasible rules. Homeostatic regulations pre-programmed codes within
Biological and Non-Biological Systems for correcting value discrepancy and
switching back system configuration to the default state.
The homeostatic control system regulates functions and events in
Non-Biological Systems according to the process modeling paradigm that
underlies the Standardization Information Platform in the following passage.
(Figure 2)
1- Open-loop Event: switching disturbance
characteristics.
2- Analysis of Disturbance: identify and
provide a state of complexity.
3- Incident Notification:
A: Stores diagnostic data.
B: Call Standard Controller.
C: Automate structured analysis.
4- Standard Controller: control default
values.
5- Seek Feedback on Standard-Setting.
6- Artificial Intelligence: Providing
feedback consistently.
7- Closed-loop Condition: Meet default
values (open-loop stability).
8- Rollback option: 1-Stop feedback 2- Reset to Standard Activity Mode
3- Transmit data to initiate start point within Feed-forward Controller.
9- Open-loop Power Control: Transmit Factors and Path of Disturbance
propagation to Analyze the Network of Disturbances.
10- Feed-forward Controller: The Rollback Option can transfer function
mapping and signal processing to the Standard Controller. Signal processing extends
to the Feed-forward Controller for developing effective relationships with
vulnerable parameters.
11- Feed-forward Setting: Stop Feed-forward
Mode.
12- Database normalization can illustrate
customer product information through web service tutorials.
Optimal algorithms within the Homeostatic Controller can be encapsulated into
the Standardization Information Platform. It improves and ensures Harmonic
Balance in Resilient Enterprises.
Observation:
The database needs a Standardization Information Platform, and it can be
visible to general public users through a web-based application framework. Users
can sign in and download information from website aggregator software after
registration. Data in a database can create a conspicuous form in context from
a reliable source, and it would be available to the public through a web
service tutorial (without registration).
Observation:
Behaviors from synergistic interdependent components within Biological
Systems can be similar to operations within Non-Biological Systems.
Observation:
A large enterprise with multiple locations can gain functional interdependence
and mutual connectivity. All operations in this enterprise architecture
framework (Infrastructure Interdependence Model) rely on mutual goal setting.
Entire subsystems have a typical responsibility for system outputs. Biological
Systems can consider Infrastructure Interdependence models because all
components have a mutual goal and undertaking to function with one another and
respond to common goals.
Observation:
Systems Owners must detect and design the optimal
Homeostatic Controller Algorithm according to environmental performances and
sustainable economic growth in Enterprises.