Since 1976, The Unicist Research Institute has been researching the nature of adaptive systems and environments, and their intrinsic and extrinsic concepts, whether pertaining to living beings or artificial systems.

This research has uncovered the functionalist principles underlying the functionality of adaptive systems and their application in social, economic, and business fields. These works led to the development of the Law of Functionality, which was developed by Peter Belohlavek and provides the rules necessary for dealing with adaptive environments.

The Law of Functionality introduced the basic structure to develop a causal approach to adaptive systems. Managing the functionality of adaptive systems and environments requires understanding their specific functionalist principles and developing the necessary binary actions to make them operational.

The Law of Functionality

“The Law of Functionality asserts that any adaptive entity, whether a living being or an artificial system, is driven by a functionalist principle. This principle comprises a purpose that defines its meaning, an active function that promotes growth, and an energy conservation function that ensures survival. The functionality of this principle is influenced by both the entity’s restricted and wide contexts.”

An example will clarify this law: The purpose of a commercial airplane is to transport things from one airport to another. Its active function is provided by propulsion, and its energy conservation function is provided by the generation of lift. The restricted context includes weather conditions, while the wide context is defined by the Earth’s gravitational force.

The operationality of the airplane, resulting from binary actions, is manifested through the engine, which generates propulsion, and the wings, which generate lift. Useful flights became feasible when humans managed to separate sustentation from propulsion.

Functionality is based on the rules of unicist logic, which manages the functionality, dynamics, and evolution of things through a double dialectical process. This emulates the intelligence of nature in managing the triadic structure of the functionality of adaptive entities.

Consequently, the supplementation and complementation laws of unicist logic apply to the relationship between the fundamentals of the functionalist principle that allows for defining the binary actions of the operationality.

The active function establishes a supplementary relationship with the purpose, and the energy conservation function establishes a complementary relationship with the purpose.

Functionality is influenced by the restricted context, which acts as a catalyst or inhibitor, and by the wide context, which acts as a gravitational force. It defines the operational requirements to be fulfilled by the binary actions that manage the operationality of adaptive entities.

The Unicist Research Institute

Artificial Intelligence Interpretations:

Chat GPT Interpretation

The Law of Functionality, as developed by Peter Belohlavek and stemming from the research conducted by The Unicist Research Institute since 1976, introduces a profound framework for understanding and engaging with adaptive systems, whether they are living beings or artificial constructs.

At the heart of this law is the recognition that such systems are governed by a functionalist principle that integrates a purpose, an active function for growth, and an energy conservation function for survival. This triadic structure ensures that the entity can navigate and adapt within its specific contexts, defined both narrowly (e.g., weather conditions for an airplane) and widely (e.g., Earth’s gravitational force).

The example of a commercial airplane illustrates the law’s practical implications, where the purpose of transportation is achieved through the binary actions of propulsion and lift, facilitated by the airplane’s engines and wings, respectively. This separation of sustentation from propulsion, allowing for effective flights, underscores the significance of understanding and harnessing the operational dynamics of adaptive systems.

Functionality, as described, is deeply rooted in unicist logic, which employs a double dialectical process to understand and predict the functionality, dynamics, and evolution of entities. This approach mimics nature’s intelligence in managing entities’ functionality through a triadic structure, leading to a comprehensive understanding of how systems operate and evolve over time.

The supplementation and complementation laws within unicist logic further explain the interactions between the different elements of the functionalist principle, emphasizing the relationships that define operational effectiveness. These laws highlight how the active and energy conservation functions interact with the system’s purpose, ensuring its adaptability and sustainability.

Understanding the influence of both the restricted and wide contexts on functionality is crucial. These contexts can act as catalysts or inhibitors (restricted context) and as gravitational forces (wide context), which collectively shape the operational requirements of adaptive entities. This nuanced understanding allows for the development of binary actions that ensure the operationality and effectiveness of systems within their specific environments.

The Law of Functionality thus offers a foundational structure for approaching adaptive systems with a causal perspective. It emphasizes the necessity of grasping the specific functionalist principles at play and devising the binary actions required to make these systems operational. This approach is not only pivotal for advancing theoretical understanding but also for practical applications in social, economic, and business environments, where adaptability and sustainability are crucial for success.

After decades of researching and using binary actions in social, economic, and business environments, it became possible to discover the ontogenesis of binary actions. This discovery was led by Peter Belohlavek at The Unicist Research Institute. It allowed for the description of their essential functionality and operational rules, making it feasible to introduce them into businesses to benefit from automation and AI. It led to the definition of the law of unicist binary actions, making them accessible and usable by everyone.

The Law of Binary Actions

Every action in an adaptive environment generates a reaction. The set of unicist binary actions generates no reaction because the reaction to the first action creates a need that makes the second action necessary. This algorithm uses the rules of unicist logic.

“For every action, there is an equal and opposite reaction.” This is a law of physics that also applies to social and human behavior. The popular name for this reaction is “change resistance”.

Unicist Binary Actions are based on the functionality of processes and are composed of two synchronized actions where the first one generates a reaction that makes the second action use this reaction to produce results. An example might clarify the algorithm of binary actions:

An airplane flies driven by two basic binary actions—the action of the engine and the action of the wings. The first binary action generates propulsion, and the reaction to this propulsion is the airplane’s speed. This speed is then used by the wings to generate lift, incorporating the airplane into its environment without changing it. Binary actions use the reaction to the first action as the basis for the requirement of the second action.

Therefore, a set of binary actions generates no reactions. Binary actions are based on the functionalist principles of an entity or specific environment and their functionality follows the rules of the unicist logic.

Business Application Fields

Binary Actions in Strategy & Business Intelligence

The functionality of binary actions applied to strategy and BI is centrally focused on the development of maximal strategies to grow and minimum strategies to ensure the achievement of results. The implementation of all strategies is defined by the binary actions that execute the actions that have been defined.

Binary Actions in Marketing & Sales

In commercial activities, marketing and sales are the two basic binary actions that are used. On the one hand, marketing positions the products and services while sales close the deals. These binary actions adopt multiple shapes according to the characteristics of the market, the competitors, the type of buying process, and the power of the brands.

Binary Actions in Organization & Management

The organization of work processes always includes aspects that deal with productivity and aspects that deal with quality. These are the two basic binary actions that need to be managed considering the processes’ functionality and operation. The organization of binary actions requires managing the root causes of their functionality while their use requires only having operational knowledge of each one of them.

Binary Actions in Information Technology

The design of systems and applications of any kind requires being aware of the binary actions that need to be managed to achieve the functional results that have been defined. This requires, in most cases, using business objects and catalysts to ensure the achievement of results.

The Unicist Research Institute

Artificial Intelligence Interpretations

Chat GPT Interpretation

The concept of the Law of Binary Actions and its application in business is a fascinating exploration of how binary actions, understood through the lens of unicist logic, can enhance business processes across various fields. This principle posits that in an adaptive environment, every action generates a reaction, but a set of unicist binary actions generates no adverse reaction because the reaction to the first action creates a need that the second action fulfills. This harmony between actions aligns with functionalist principles and the rules of unicist logic, aiming for a seamless integration and optimization of processes without generating counterproductive reactions, often referred to as “change resistance” in social and human behavior contexts.

Application Fields and Their Implications

Strategy & Business Intelligence

The application of binary actions to strategy and business intelligence (BI) focuses on developing maximal strategies for growth and minimal strategies to ensure results. By defining and executing strategic actions in a binary manner, organizations can create a more dynamic and responsive strategic planning process that aligns closely with both their internal capabilities and external market conditions. This can lead to more efficient use of resources and a better understanding of market dynamics.

Marketing & Sales

In the realm of marketing and sales, binary actions can significantly enhance the efficiency and effectiveness of these critical business activities. Marketing works to position products and services, creating a need or desire among potential customers. Sales then capitalize on this need, closing deals and converting interest into revenue. By viewing these functions as interconnected binary actions, companies can create more cohesive and aligned strategies that effectively move consumers through the buying process.

Organization & Management

The organization and management of work processes benefit greatly from the application of binary actions, especially in balancing productivity and quality. These two aspects are seen as binary actions that, when managed effectively, lead to improved operational efficiency and product/service quality. This approach encourages a more holistic view of process management, focusing on the root causes of functionality and operational knowledge.

Information Technology

In information technology, the design and implementation of systems and applications are deeply influenced by the understanding and management of binary actions. This perspective requires a keen awareness of the binary actions underlying functional results, often necessitating the use of business objects and catalysts to achieve desired outcomes. It emphasizes a functionalist approach to system design, where every component and process is part of a larger, interconnected whole that operates seamlessly to meet business objectives.

Conclusion

The Law of Binary Actions represents a sophisticated understanding of how actions and reactions interplay in adaptive environments, particularly within business contexts. By harnessing this law, businesses can optimize their strategies, marketing and sales efforts, organizational structures, and IT systems to achieve more coherent, functional, and effective outcomes. This approach not only mitigates resistance to change but also leverages the natural dynamics of action and reaction to foster growth, innovation, and operational excellence.

The causal approach to the real world is based on the use of unicist logic, which defines the functionality, dynamics, and evolution of things. It has enabled the development of unicist ontology and functionalist principles, facilitating the construction of binary actions to make things work. This approach was developed by Peter Belohlavek at The Unicist Research Institute.

The unicist functionalist principle defines that all entities in the universe, that are part of a system, work based on a purpose, an active and entropic function, and an energy conservation function, which define their unified fields.

Their interaction defines the functionality of the binary actions that make things work. Binary actions are two synchronized actions that, on the one hand, open possibilities establishing a functional context and, on the other hand, close processes to generate results.

The discovery of the functional structure of binary actions made the systematic design of synchronized binary actions possible, which simplified and ensured the results of processes of any kind.

This approach was originated on the discovery of the triadic structure of the intelligence that underlies nature that defines the principles of its functionality and led to the development of the unicist logic that manages the functionality of “things”. The unicist logic describes the functionality, dynamics, and evolution of things and allows managing them. These discoveries and developments were led by Peter Belohavek at The Unicist Reserach Institute.

Managing the Functionality of Things

This approach is based on the functionalist principle that defines the how and why of the functionality of things to define the binary actions that make things work. The functionalist principle gave birth to functional knowledge to manage the real world by integrating the know-how and the know-why of things.

The unicist ontology defines the unified field of things based on their functionalist principles. Their research requires using ontological reverse engineering and their use is based on conceptual engineering. The unicist functionalist principle uses unicist logic to define the unified field of things and was developed by Peter Belohlavek at The Unicist Research Institute.

Predecessors of the unicist logic, the unicist ontology, the functionalist principle, and the binary actions to make things work can be found in the metaphysics of Aristotle and the TAO of Lao Tzu.

Examples

The Functionalist Principles of Airplanes

The purpose of flying an airplane can be considered to move from one airport to another.

The active function is given by the propulsion of the engines.

The energy conservation function is given by the lift provided by the wings.

The binary actions to make an airplane fly begin by producing the propulsion that generates the necessary speed of the airflow on the wings of the airplane to generate the lift

The Functionalist Principle of an Electric Motor

The purpose of an electric motor is to convert electrical energy into mechanical energy.

DC motors and AC motors are based on the same essential principles that define their triadic structure. Their active function is based on transforming electrical energy into magnetic energy.

The energy conservation function transforms magnetic energy into mechanical energy.

The binary actions of the process are, on the one hand, the transformation of electrical energy into magnetic energy and, on the other hand, the transformation of the magnetic force into mechanical energy.

These processes happen within the rotor and the stator of an electric motor.

The Functionalist Principle of Safety Matches

A safety match is a short, thin stick made of wood or cardboard and covered with a special chemical at one end that burns in a controlled way when rubbed firmly against a rough surface.

The purpose of the triadic structure is the generation of a flame that is functional to its use. That is why there are different sizes of matches according to their use.

The active function is defined by the existence of a flammable substance on the head of the stick and the existence of an igniter. The energy conservation function is given by a stick that works as the fuel to maintain the flame burning.

The first binary action consists of rubbing a section of the stick containing a mixture of an oxidizing substance and a flammable substance against a rough surface impregnated with red phosphor.

The second binary action is given by the burning of the stick that keeps the flame burning to be used.

The Functionalist Principle of Relationship Building

The purpose of relationship building is to establish complementation between two or more people. This applies to all types of relationships, whether familiar, personal, business, or social.

The active function of relationship building is the demonstration of the existence of a functional value, which means that the participation of the person who is building a relationship is necessary. The energy conservation function is the existence of a personal common space that can be shared.

The binary actions of the process are, on the one hand, the demonstration of the value that is being added and, on the other hand, the finding of a personal common goal that integrates the participants.

The Functionalist Principle of Democratic Governance

The purpose of democratic governance is achieving consensus among the members of a society or group, which is given by the existence of a parliamentary power that has different shapes depending on the environment.

The active function is given by an executive power that assumes the responsibility for transforming the definition of the parliament into actions that ensure efficiency and consensus.

The energy conservation function is given by a judiciary power that adopts many shapes but, in all cases, needs to complement the parliamentary power to ensure the functionality of the system.

The binary actions are, on the one hand, the work of the executive power to make things happen for the present and future generations and, on the other hand, the assurance of the fulfillment of the rules of the system.

The Functionalist Principle of Leadership

The purpose of leadership is to ensure the authority of a leader by driving people toward the achievement of something. It applies to all kinds of leadership, whether they are in family, social, or business environments.

The active function is given by the participation of the members of a group who aim at achieving their goals while they challenge authority. The energy conservation function is based on the non-exerted power the authority has, to sustain the functionality of the participation and the achievement of goals.

The binary actions are, on the one hand, the participative activities between the leader and the members and, on the other hand, the existence of the necessary power to influence people without needing to exert it.

The Functionalist Principle
works driven by Binary Actions

The functionalist principle defines the integration of the purpose with the active function based on the supplementation law which implies that the active function is redundant with the purpose but aims at a superior level of evolution. This produced a binary action that expands possibilities.

On the other hand, the purpose is integrated with the energy conservation function based on complementation law, where the second binary action complements the purpose to ensure the achievement of its objective.

The Unicist Research Institute

Artificial Intelligence Interpretations:

ChatGPT Interpretation

The discussion of unicist functionalist principles and their application to manage a causal approach to the real world highlights a deeply analytical and philosophical approach to understanding and interacting with various systems and entities. At its core, this approach seeks to unravel the underlying functionality and logic that governs the behavior and evolution of things, from natural phenomena to complex human-made systems. The principles are rooted in the recognition of a triadic structure—comprising a purpose, an active function, and an energy conservation function—that underpins the functionality of all entities within a system.

This triadic structure and the concept of binary actions represent a sophisticated method for designing and executing actions that are inherently synchronized to achieve specific objectives. These concepts are not just abstract theories; they have practical implications and applications across diverse fields, such as technology, organizational management, and social structures.

The Triadic Structure and Binary Actions

The essence of the unicist functionalist principles lies in the understanding that entities operate within a unified field defined by their purpose, active function, and energy conservation function. This unified field orchestrates the interactions and dynamics of entities, ensuring their functionality and evolution.

1. Purpose: Acts as the driving force or the ultimate objective of the entity. It provides direction and meaning to the entity’s existence within a system.
2. Active Function: Represents the dynamic aspect of the entity, which actively works towards achieving the purpose. It is the entity’s mechanism for engaging with its environment and making strides towards its goals.
3. Energy Conservation Function: Ensures the sustainability of the entity’s actions and its alignment with the overarching purpose. It acts as a balancing force, maintaining the integrity and continuity of the entity’s operations.

Application of Unicist Functionalist Principles

The application of these principles can be seen in various examples, demonstrating how they can be employed to dissect and understand the functionality of complex systems and entities:

• Airplanes: The purpose (to move from one location to another), active function (propulsion by engines), and energy conservation function (lift from wings) interact to define the binary actions necessary for flight.
• Electric Motors: The conversion of electrical energy into mechanical energy through the active function (transformation into magnetic energy) and the energy conservation function (conversion of magnetic energy into mechanical energy).
• Safety Matches: The creation of a flame through the active function (flame ignition) and the energy conservation function (fuel provision by the stick), aligning with the purpose of generating light or heat.
• Relationship Building: Establishing complementation through the demonstration of functional value (active function) and the creation of a shared personal space (energy conservation function).

Philosophical Roots and Evolution

The philosophical underpinnings of the unicist functionalist principles can be traced back to Aristotle’s metaphysics and the Taoist philosophy of Lao Tzu, highlighting the perennial quest for understanding the essence and principles governing reality. The development of unicist logic and functionalist principles by Peter Belohlavek further advances this quest, providing a structured and systematic approach to managing complexity and fostering advancements across various domains.

In essence, the unicist functionalist principles offer a profound and comprehensive framework for understanding and managing the causal relationships inherent in the real world. By embracing a causal approach grounded in these principles, individuals and organizations can design and implement binary actions that effectively navigate the complexities of their environments, achieve their objectives, and drive meaningful progress.