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Simple rules → a complex world · Complexity

Map of Complexity & Chaos

Why a few simple rules, repeated among countless individuals, give rise to order & complex behavior that no one controls.

self-organization · chaos · emergence
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Flocking & Emergence Đàn chim & Trồi sụt

Each one follows just 3 rules (separate – align – cohere) with its neighbors, with NO leader — yet the whole flock swirls as one.

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Chaos Hỗn loạn & Con lắc kép

The butterfly effect: a tiny initial error → completely diverging trajectories. The double pendulum & the Lorenz attractor.

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Cellular Automata Game of Life

4 live/die rules on a square grid → producing gliders, guns, self-replicating structures.

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Networks Mạng lưới & Lan truyền

Six degrees of separation, spreading epidemics/rumors, the tipping point — the power of connected hubs.

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Game Theory Lý thuyết trò chơi

The prisoner’s dilemma, cooperation vs betrayal — when selfishness wins, when cooperation emerges.

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L-Systems Tăng trưởng & Phân nhánh

Trees, blood vessels, river networks grow from one repeated branching rule — the fractal of life.

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Epidemic · SIR Lan truyền dịch

The SIR model: an outbreak from patient zero, R₀ deciding the peak; vaccination & distancing flatten the curve.

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Traffic Jam Kẹt xe tự phát

The Nagel–Schreckenberg model: ‘phantom’ jams emerge from density, stop–go waves traveling backward with no obstacle at all.

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Sandpile · SOC Đống cát tới hạn

Self-organized criticality: adding one grain can trigger avalanches of every size — a power-law distribution like earthquakes.

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Percolation Thấm

Fill cells at random and at the threshold p_c ≈ 0.59 a spanning cluster appears — a sudden phase transition, water seeping through.

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Reaction–Diffusion Hoa văn Turing

Two chemicals diffusing + reacting self-form spots (leopard), stripes (zebra), mazes — just change 2 numbers. No one draws them, the patterns emerge.

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Synchronization Đồng bộ tự phát

Fireflies, metronomes, heart cells self-sync to the SAME phase once weak coupling crosses a threshold — synchrony emerges with no conductor (Kuramoto).

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Elementary CA Tự động tế bào 1D

One 8-bit rule + one black cell: Rule 30 gives chaos, Rule 90 draws Sierpinski, Rule 110 is Turing-complete. Complexity needs no complex rule.

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Segregation Mô hình phân tách Schelling

Everyone just wants a few neighbors like themselves (very tolerant), yet the neighborhood self-splits into stark red/blue blocks — segregation emerges from a mild preference.

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Ant Colony Optimization Kiến & Tối ưu bầy đàn

Ants leave pheromone; the shorter path builds scent faster so the colony converges on it — with no map or commander. The idea became the ACO algorithm.

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Slime Mold Mốc nhầy giải mê cung

A single giant brainless cell self-weaves an optimal tube network linking points — it once recreated the Tokyo rail map. Intelligence emerging from local rules.

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Forest-Fire Model Cháy rừng & Lan truyền

Trees grow, lightning strikes, fire spreads: the system drives itself to the critical threshold where fires come in every size (a power law) — kin to earthquakes & avalanches.

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Bifurcation Điểm tới hạn & Rẽ nhánh

A one-line formula x’=r·x·(1−x): raise r and 1 point → 2 → 4 → chaos. Order & chaos nested in a fractal structure (Feigenbaum).

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Opinion Dynamics Lan truyền ý kiến & Phân cực

People move closer if their views are close enough. Openness → society reaches consensus; listening only to the like-minded → polarization & echo chambers.

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Genetic Algorithm Thuật toán tiến hóa

A population of ‘solutions’ evolves toward a goal through selection + crossover + mutation — borrowing Darwin’s mechanism to solve a problem with no answer known in advance.

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