Skip to content

smartlegionlab/local-data-regeneration-paradigm

BranchesTags

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

6 Commits
paper
paper
 
 
.gitignore
.gitignore
 
 
DISCLAIMER.md
DISCLAIMER.md
 
 
LICENSE
LICENSE
 
 
README.md
README.md
 
 

Repository files navigation

The Local Data Regeneration Paradigm

Ontological Shift from Data Transmission to Synchronous State Discovery

Abstract

Fundamental theoretical work proposing an alternative to classical information transmission, where data is regenerated locally through synchronized computation rather than physically transferred.

Published: October 4, 2025
Status: Theoretical Research

DOI License: CC BY 4.0 Research Paper Unique Views Unique Downloads Total Views Total Downloads Paradigm Research Published

⚠️ Legal Disclaimer & Research Status

ACADEMIC RESEARCH - NOT FOR PRACTICAL USE

This is theoretical research, not production software.

Warning: This work is for academic discussion only. Do not use in production systems.

Full academic disclaimer: See DISCLAIMER.md

Publication Details

Detail Information
Title The Local Data Regeneration Paradigm
DOI 10.5281/zenodo.17264327
Published October 4, 2025
License Creative Commons Attribution 4.0 International
Author Alexander Suvorov
ORCID 0009-0006-3427-9611
Type Theoretical Research

Download & Access

Format Link
📄 PDF Download Download from Zenodo
📖 Read Online Zenodo Record
💻 Source Code GitHub Repository
📰 Article dev.to Technical Deep Dive

Author Information

Contact Information
Name Alexander Suvorov
Website alexander-suvorov.ru
GitHub smartlegionlab
Email smartlegionlab@gmail.com
ORCID 0009-0006-3427-9611

Foundational Postulates

From To
Data as Transferable Object Data as System State
Data Transmission Synchronous Local Regeneration
Information Transfer Pointer Synchronization

Detailed Postulates

  1. Data as System State
    Information understood as computational state rather than transferable object

  2. Synchronous Local Regeneration
    Identical states reached through shared algorithms: D = F(S, P)

  3. Communication as Pointer Synchronization
    Coordination of discovery coordinates rather than data transmission

Connected Research

Pointer-Based Security Paradigm

Architectural Application of Regeneration Principles

Position-Candidate-Hypothesis (PCH) Paradigm

Position-Candidate-Hypothesis (PCH) is a theoretical paradigm for structural-statistical analysis of NP-complete problems.

Deterministic Game Engine

Experimental Validation of Theoretical Framework

Practical Implementation

The Local Data Regeneration Paradigm has been implemented in the Smart Password Ecosystem:

Component Description Cross-Platform
smartpasslib Core Python library Python
smartpasslib-js JavaScript implementation JS
smartpasslib-kotlin Kotlin implementation Kotlin
smartpasslib-go Go implementation Go
smartpasslib-csharp C# implementation C#
Desktop Manager Desktop application Linux
Desktop Manager (C#) Desktop application Windows
CLI PassMan Console password manager Cross-platform
CLI PassGen Console password generator Cross-platform
Web Manager Web interface Any browser
Android Manager Mobile application Android

Cross-Platform Compatibility

The paradigm's practical implementation produces identical passwords across all platforms:

Platform Implementation
Python smartpasslib
JavaScript smartpasslib-js
Kotlin smartpasslib-kotlin
Go smartpasslib-go
C# smartpasslib-csharp
Web Web Manager
Android Android Manager
Desktop Desktop Manager
CLI CLI PassMan / CLI PassGen
  • Smart Babylon Library - A deterministic infinite library generator inspired by Borges' "The Library of Babel". Generate unique, deterministic books and pages based on coordinate systems without storing any data.
  • Babylonian Image Library - A deterministic infinite image library generator inspired by Borges' 'The Library of Babel'. Generate unique, deterministic images based on coordinate systems without storing image data.

Citation

@misc{suvorov_2025_17264327,
  author       = {Suvorov, Alexander},
  title        = {The Local Data Regeneration Paradigm: Ontological
                   Shift from Data Transmission to Synchronous State
                   Discovery
                  },
  month        = oct,
  year         = 2025,
  publisher    = {Zenodo},
  doi          = {10.5281/zenodo.17264327},
  url          = {https://doi.org/10.5281/zenodo.17264327},
}

License

This research paper and all accompanying documents are licensed under Creative Commons Attribution 4.0 International.

Copyright

Copyright © 2025 Alexander Suvorov. Licensed under Creative Commons Attribution 4.0 International.

"Sometimes the most efficient communication occurs not through better transmission, but through eliminating the need to transmit."

About

The Local Data Regeneration Paradigm Ontological Shift from Data Transmission to Synchronous State Discovery

doi.org/10.5281/zenodo.17264327

Topics

paradigm paradigms smartlegionlab pointer-based-security-paradigm alexander-suvorov-paradigms alexander-suvorov-paradigm local-data-regeneration-paradigm alexander-suvorov

Resources

Readme

License

CC-BY-4.0 license
Activity

Stars

4 stars

Watchers

3 watching

Forks

0 forks
Report repository

Releases 4

v1.0.4 Latest
Apr 30, 2026
+ 3 releases

Packages

 
 
 

Contributors

Languages