Monday, January 27, 2014

A Hidden Revolution in the Global Label Markets

The Competitive World and legal rationalization inspire Systems Owners to focus on cost efficiency for more competition in the Global Platform. Information Technology ensures the safe launch of a hidden revolution in the Global Label Market. Systems Owners create global structure guidelines for competencies and develop rules and criteria for employment. Consequently, competency profiles changed radically for employees in this decade. The Global Structure rules and regulations for hiring in the label markets define the same framework model for core competencies. Besides, the topology of the whole universe can illustrate what competencies are necessary for specific tasks. Global structure rules and regulations propose guidance on how employers handle age, sex, race, and ethnicity for their benefit. Employers can practice and engage in possible nepotism due to the unprecedented financial crisis and Competitive World. Comparison-based sorting algorithms beyond the Global Label Market in the past decade and at present imply extraordinary changes implemented in the Global Label Market.

Thursday, December 19, 2013

Homeostasis Control Mechanisms and the Paradox of Open-loop Cycles

This case study focuses on Homeostasis Control Mechanisms and compares two automated processes within Biological Systems. The observational and experimental studies target Open-loop tracking complex via external and internal environments. Algorithmic patterns beyond Global Variables modify parameters of the external environment. Consequently, unpredictable hidden Open-loop Cycles can generate disparity gradients in Social Contexts. 
Internal environment parameters can be handled through encapsulated Sensors and Input Control mechanisms in Subconsciousness. The value discrepancies improve through auto-adjusting algorithms within Homeostasis Control Mechanisms.
Homeostasis Control Mechanism for Primary Instincts can hardly trace and detect complex parameters in social algorithms. Therefore, the Closed-loop Conditions and the number of Open-loop cycles in the External Environment depend on complex algorithms behind Global Variables within the System Platform. 
Homeostasis Control Mechanism for Blood Glucose can detect and trace possible disturbances and abnormal conditions in the Blood System because of the tight regulation of blood Glucose. System sensors can respond promptly to any divergence from global code and regulate the equilibrium state for a Blood Glucose level. Modulating environmental dynamics and an encapsulated single control code can add progressive blood sugar control. Open-loop in confining Homeostasis Control Mechanism implies a structural abnormality in Glucose value. Open-loop mode and value discrepancies are transparent for the Homeostasis Control Mechanism.
The Homeostatic Regulation of Blood Glucose has constraints underlying analogical mapping in Primary Instincts. Both Control Mechanisms respond to value discrepancies, which might disturb the standard conditions for obtaining an equilibrium model. However, the Homeostasis Regulation of Blood Glucose has an encapsulated single-level input control. For example, the System Sensor regulates and transports blood to the Closed-loop Controller when the blood sugar level is outside the normal range (above 100 mg/dl). Blood Glucose adjusts to the normal range via Insulin and returns to the primary loop circulatory system. A system sensor can monitor the typical level of Glucose synthesis and transport to the liver. The flow of glucose through those two processes is regulated and executed in the system mechanism within a short period. Biological Systems hardly detect Open-loop mods in the regulatory process control because of consistency and accuracy in modulation measurement. (See diagram 1.0)
                                                                           

 
The Homeostatic Regulation of the Primary Instinct initials the state of activation while the specific Primary Instinct becomes active through Input Genetic Algorithm or External Input. The Brain Center scrutinizes Input parameters and then transmits a signal to the Secondary Instinct. Input parameters measure the Secondary Instinct and select appropriate Primary Instincts for activation. Primary Instincts characterized by cell types convey back to Secondary Instinct. Definite attribution algorithm for choosing the Primary Instinct examined within Secondary Instincts. Secondary Instincts can activate primary Instincts when they barely meet real-world requirements. Attribution algorithms transfer to Closed-loop Controller and algorithm parameters compared with encapsulated criteria. Approved algorithms move forward to Brain Center. Non-approved algorithms move back and forth between Secondary Instincts and Closed-loop controllers for activating specific Associated Primary Instincts. Eventually, non-approved algorithms with unstable attributes may generate a hidden Open-loop Cycle between Secondary Instinct and Closed-loop controllers. 
The Brain Center sends an order to structural units for further enhancing and functioning in external environments. A feedback mechanism returns values to the Homeostatic Regulation of Primary Instincts. Returning value can be either straightforward Input or Open-loop Cycle. The feedback mechanism may generate Open-loop conditions when returning values do not obtain an equilibrium model in the regulatory process control. (See diagram 2.1)
                                                                        
 


The Homeostatic Control System obtains an equilibrium mode when feedback shifts from the External Environment integrates with Physical functions (compatibility mode). The selection of stimulus parameters in the External Environment transfers to the Brain Center. The Brain Center evaluates external parameters, and then cell types transmit functional signals to an array of Primary Instincts through a Closed-loop Controller. Primary Instincts and possible activated Associated Instincts may require compatibility with Library Section Criteria. Instance functions and attributes of Primary Instincts compared with parameters within Library Section Criteria. Approved operations and codes can challenge the Closed-loop Controller to transmit a signal to instances of  the Secondary Instinct. Non-approved external functions and attributes generate hidden Open-loop conditions within the Closed-loop Controller. Diagram 2.2 shows a paradox of incompatibility in the Closed-loop Controller.

                                                                                 



 
Analysis and Comparison of Homeostatic Control Systems
 
Homeostatic Control System for Blood Glucose Levels has a short circulatory process control. Besides, consistency and accuracy in modulation measurement automatically detect characteristics under Open-loop conditions. Encapsulated sensors detect deviations promptly, and the Control System provides compatibility patches for system requirements. Homeostatic Control System for Blood Glucose programs to achieve Harmonic Enrichment in system framework. Hidden Open-loop Cycles can be detected through diagnostic blood tests. 
The Homeostatic Control System for Primary Instincts has a two-layered integration framework for internal and external processes. 
Internal circulatory processes integrate with a wide range of external effects of parameters. External parameters are instance parameters of Global Variables and the Competitive World. 
External parameters need to be always compatible with internal processes. External parameters articulate a proactive mechanism of the Competitive World, which has a collision path with internal characteristic patterns of Primary Instincts. Contradictions within two-layered integration modify the Homeostatic Control System for Primary Instincts. It can underlie early genetic vulnerability and generate multiple hidden Open-loop Cycles in the Biological Systems. 
Instance, parameters of Primary Instincts (internal parameters), are automatic feedback mechanism that adjusts Open-loops for Biological Systems. 
However, Instance parameters of the Competitive World (external Parameters) are automatic feedback mechanisms that provide a competitive advantage for Non-Biological Systems.
 
Observation: 
The Interdisciplinary Research and Perspective developed on Systems Theory. 
 
Observation:
The Homeostatic Control System for Primary Instincts has a complicated structure and consists of two integrated sections. The Internal section handles parameter changes in the External Environment through structural criteria control, and the second structure calls for instances of the Secondary Instinct. The incompatibility property of integration causes hidden Open-loop Cycles in the Homeostasis Control System; therefore, compatibility between two categories is essential.   

Observation:
Parameters of the external section of the Homeostatic Control System must articulate and align according to the property of ethical Primary Instincts. Governance Rules and Principles need to encourage consistency in morals and prevent inconsistency. Social norms are instance parameters of the Competitive World; consequently, an internal section of the Homeostatic Control System encounters open loops.

Observation:
Open-loop Homeostatic Control System for Primary Instincts generates hidden emotional disturbances with behavioral disorders in Non-biological Systems. 
 
Observation:
Unethical parameters in a Competitive World inspire Systems Owners to think new and strategically about opponents. Parameters in new strategic thinking hint at unscientific and Unethical Decision Making in system frameworks. Therefore, Global Variables can infect a virus of Unethical parameters in a Competitive World. 
Predictable Pattern Infection with unethical parameters can be detected in social contexts. Unethical social parameters inspire the activation of unethical Primary Instincts within the network of the Competitive Instinct.
 
Observation: 
Unethical Primary Instincts cause antisocial personality disorder behavior and complexity for Non-Biological Systems. Using ethical parameters, system Owners can save social costs and side-effects of community violence. 
According to an observational study, patterns of equality in social structure would set aside unethical connections with the Competitive World and ultimately create a competitive advantage for Systems Owners.

For example, some essential moral parameters of ethics in Global Variables are as follows: 
Develop solidarity, respect integrity, promote loyalty, automated freedom of expression, improve social transparency, develop human rights, cultivate empathy, focus on family health care, practice openness, honor trust, and possible elimination of Bureaucratic Hypocrisy. These parameters are on a collision path with the Competitive World. Therefore, Systems Owners are reluctant to articulate these parameters in Global Variables. 
 
Systematic prognosis of encapsulated algorithms from Competitive World in social platforms: 
Society's syndrome is a circumstance that appears in a Social Context where parameters in a Competitive World inspire Systems owners to become more competitive. The system Owner modifies entire system resources through Global Variables according to the parameters of the Competitive World. Global Variables motivate society to become fully qualified for the competition. Associated External Instincts in Social Context (unethical parameters) integrate with associated Internal Instincts. Closed-loop Controller in Subconsciousness scrutinizes parameters of Internal Instincts (unethical parameters) and saves a new set of feature parameters of the Competitive World in Library Section Criteria within (Consciousness). Hidden Open-loop generates across Internal Instincts, and eventually, integration with External Instincts executes hidden Open-loop Conditions in society. Hidden Open-loop perpetuates in society and causes hidden social costs. Side-effects of Open evolution loops create a vicious cycle and return invisible financial burdens in the Competitive World. (See diagram 3)
 
 


Observation:
The competitive World is a visual framework that focuses, among others, on Economy Performances, Competencies, and Labor Rationalization. Systems Owners must follow guidelines for strategic criteria in portfolio rationalization and implement an intelligent cost-reduction framework. Otherwise, System Platforms may confront a thoughtful crisis. Multi-parameter Mechanisms of the Competitive World are hardly friendly with Social Contexts and Biological Systems. Instance parameters of the Competitive World inspire Unethical Primary Instincts that can activate and hamper active Ethical Primary Instincts. 

Observation:
Humanity is critical to the future of healthy system performances and competitions. Parameters of a Competitive World need to align overwhelmingly with the parameters of Humanity. 

Observation:
The boundaries of the Competitive Instinct and its Associated Instincts must be confined to health and safety regulations in the Competitive World. The Cynical Instinct plays a significant role in the growth of Associated Instincts. A creative spiritual principle and philosophical concepts would inspire Systems Owners to minimize the number of active Instincts within the Network of Competitive Instincts. 

Observation: 
Systems Owners can sub-optimize Systems Platforms for handling parameters in a vicious cycle. They may believe they design and implement Optimal State Feedback Control in Systems Platforms because their products and services can partially build customer satisfaction. 

 

 

                       




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