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Decode algorithmic information compressed in
natural complex systems.

Keywords:

Complex Systems

Algorithmic Information Theory (AIT)

Information Compression

Origin of Life

Autocatalytic Sets

Tags:

Ladderpath

Nature tinkers

Duplication precedes innovation

abio2bio

intelligence<compression>life

Evolutionary tinkering enriches the hierarchical and nested structures in amino acid sequences

Ladderpath Approach: How Tinkering and Reuse Increase Complexity and Information

Exploring and mapping chemical space with molecular assembly trees

Sand

🧩 Beta Project:  Origin of Life & Self-replication

🔥 Study through mathematical modeling: How life (self-replicating) emerges from non-life (not self-replicating)

Theoretical perspective on synthetic man-made life: Learning from the origin of life

On the definition of a self-sustaining chemical reaction system and its role in heredity

Side reactions do not completely disrupt linear self-replicating chemical reaction systems

Mathematical modeling reveals spontaneous emergence of self-replication in chemical reaction systems

Is the golden ratio a universal constant for self-replication?

Sand

🪁 Playground

Resonance algorithm: an intuitive algorithm to find all shortest paths between two nodes

Insights into resource consumption, cross-feeding, system collapse, stability and biodiversity from an artificial ecosystem

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