Closed Loop Interval Ontology

CLOSED LOOP INTERVAL ONTOLOGY
The Digital Integration of Conceptual Form

TzimTzum/Kaballah | Loop definition | Home | ORIGIN

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The Many Forms of Many/One

Universal conceptual form

Invocation

Aligning the vision

Project under development

Evolving and coalescing

Guiding motivation

Why we do this

A comprehensive vision

Ethics / governance / science

Cybernetic democracy

Homeostatic governance

Collective discernment

Idealized democracy

Objectives and strategy

Reconciliation and integration

Reconciliation of perspectives

Holistic view on alternatives

What is a concept?

Definitions and alternatives

Theories of concepts

Compare alternatives

What is truth?

How do we know?

Semantics

How meaning is created

Synthetic dimensionality

Foundational recursive definition

Universal hierarchy

Spectrum of levels

A universal foundation

The closed loop ensemble contains
all primary definitions

Set

Dimensions of set theory

Numbers

What is a number?

Venn diagrams

Topology of sets

Objects in Boolean algebra

How are they constructed?

Core vocabulary

Primary terms

Core terms on the strip

Closed Loop framework

Graphics

Hierarchical models

Digital geometry

Euclid in digital space

The dimensional construction
of abstract objects

Foundational method

The digital integration
of conceptual form

Compositional semantics

Closed loop interval ontology

How it works

Cognitive science

The integrated science of mind

Equality

What does it mean?

Formal systematic definitions

Core terms

Data structures

Constructive elements
and building blocks

Compactification

Preserving data under transformation

Steady-state cosmology

In the beginning

Semantic ontology

Domain and universal

Foundational ontology

A design proposal

Coordinate systems

Mapping the grid

Articles

From other sources

Arithmetic

Foundational computation

Plato's republic and
homeostatic democracy

Perfecting political balance

Branching computational architecture

Simultaneity or sequence

Abstract math and HTML

Concrete symbolic representation

All knowledge as conceptual

Science, philosophy and math
are defined in concepts

Does the Closed Loop
have an origin?

Emerging from a point

Theme
Set theory (all)
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Definition / description

A set is a collection of objects

Sat, Mar 20, 2021

Reference

Set theory is a branch of mathematical logic that studies sets, which informally are collections of objects. Although any type of object can be collected into a set, set theory is applied most often to objects that are relevant to mathematics. The language of set theory can be used to define nearly all mathematical objects.

The modern study of set theory was initiated by Georg Cantor and Richard Dedekind in the 1870s. After the discovery of paradoxes in naïve set theory, such as Russell's paradox, numerous axiom systems were proposed in the early twentieth century, of which the Zermelo–Fraenkel axioms, with or without the axiom of choice, are the best-known.

Set theory is commonly employed as a foundational system for mathematics, particularly in the form of Zermelo–Fraenkel set theory with the axiom of choice. Beyond its foundational role, set theory is a branch of mathematics in its own right, with an active research community. Contemporary research into set theory includes a diverse collection of topics, ranging from the structure of the real number line to the study of the consistency of large cardinals.

https://en.wikipedia.org/wiki/Set_theory