Modelling the behaviour of self-replicating interstellar probes after mutation into predator-prey populations
-
Updated
Nov 12, 2018 - C++
#
fermi-paradox
Here are 10 public repositories matching this topic...
CI/CD repository for the Fermi Paradox Theory Project
-
Updated
Aug 7, 2023 - HTML
Interactive calculator for estimating potentially Earth-like planets across the Milky Way and the observable universe using transparent astrophysical assumptions.
github-pages astronomy static-site exoplanets scientific-calculator monte-carlo-simulation uncertainty-analysis seti probabilistic-modeling planetary-science milky-way astronomy-astrophysics habitability fermi-paradox source-available drake-equation observable-universe earth-like-planets poisson-distance-estimation
-
Updated
May 17, 2026 - JavaScript
Estimate the number of intelligent civilizations in our galaxy using the Drake Equation, probabilistic modeling, and data storytelling.
probability data-visualization sensitivity-analysis probabilistic-modeling fermi-paradox drake-equation
-
Updated
Jul 15, 2025 - Jupyter Notebook
Code to calculate the distribution of the possible number of detectable alien civilizations in our Galaxy using the Drake equation and Metaculus predictions.
-
Updated
May 4, 2026 - Python
A simple toy model to calculate the location of the great filter given new evidence of alien life.
-
Updated
May 15, 2026 - HTML
Kardashev Scale, Fermi Paradox and Great Filter: A Unification Through Thermodynamic Efficiency
exoplanets thermodynamics cosmology theoretical-physics energy-efficiency seti systems-theory astrobiology fermi-paradox kardashev-scale extinction-risk resource-depletion great-filter civilization-collapse sustainability-science substrate-degradation observable-universe extraterrestrial-intelligence archaeological-patterns climate-thresholds
-
Updated
Jan 6, 2026
The Fermi Paradox and Great Filter
information-theory thermodynamics complexity-theory astrobiology fermi-paradox drake-equation existential-risk great-filter civilizational-collapse computational-limits
-
Updated
Dec 26, 2025
Agent-Based Model (ABM) in Rust simulating the Fermi Paradox. It implements the Cosmobiological Asynchrony Theory (CAT), mathematically modeling systemic civilization collapse at the intersection of exponential technological growth and logarithmic neuro-biological maturity.
python rust computational-physics agent-based-modeling complex-systems simulation-engine evolutionary-biology astrobiology fermi-paradox
-
Updated
May 16, 2026 - Rust
Improve this page
Add a description, image, and links to the fermi-paradox topic page so that developers can more easily learn about it.
Add this topic to your repo
To associate your repository with the fermi-paradox topic, visit your repo's landing page and select "manage topics."