Version 1 (SCIDDICA-3): Uses Von Neumann neighborhood (4 neighbors) with run-up height modeling Version 2 (SCIDDICA-S3-hex): Uses hexagonal neighborhood (6 neighbors) with explicit energy modeling and ...

Explore the fascinating world of physics and programming with this Physics-Based Python Simulation: Bouncing Balls Inside a Circle tutorial! In this video, we build a dynamic simulation where balls ...

Master projectile motion simulations using Python functions! 🐍⚡ This tutorial walks you through coding techniques to model trajectories, calculate distances, and visualize motion in real time.

Abstract: Electromagnetic (EM) wave simulation is vital for antenna, photonic, and wireless system design, yet classical solvers such as FDTD, FEM, and MoM scale poorly for large or real-time problems ...

Abstract: Modeling traffic flow in cities is an important part of making transportation networks perform better in smart cities. It means figuring out how traffic will flow, when it will get stuck, ...

Cellular automata and their differentiable counterparts, Neural Cellular Automata (NCA), are highly expressive and capable of surprisingly complex behaviors. This paper explores how NCAs perform when ...

This project is a cellular automaton simulation developed as an academic task for the Biological Computation Course. It models complex environmental interactions using a particle-based system.

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