2025
Weather Data Sculptor
A Python tool that converts live weather data into 3D visualizations. Pick cities, choose a visualization type, and generate interactive models based on real temperature, humidity, and wind patterns.
Python
Data visualisation
This project explores the visualization of invisible environmental forces. By bridging real-time meteorological data with generative geometry, the application transforms raw atmospheric parameters—temperature, humidity, and wind velocity-into immersive 3D sculptures.
How It Works
Users can input any global coordinate to instantly synthesize its "weather signature." The system utilizes custom GLSL shaders to render 30,000 dynamic particles, creating a digital twin of a city's current climate.
Nebula: Volumetric representation of temperature spheres.
Stream: Vector-based flow fields visualizing wind direction.
Wave: Topographic grids driven by humidity levels.
More Works
2025
Weather Data Sculptor
A Python tool that converts live weather data into 3D visualizations. Pick cities, choose a visualization type, and generate interactive models based on real temperature, humidity, and wind patterns.
Python
Data visualisation
This project explores the visualization of invisible environmental forces. By bridging real-time meteorological data with generative geometry, the application transforms raw atmospheric parameters—temperature, humidity, and wind velocity-into immersive 3D sculptures.
How It Works
Users can input any global coordinate to instantly synthesize its "weather signature." The system utilizes custom GLSL shaders to render 30,000 dynamic particles, creating a digital twin of a city's current climate.
Nebula: Volumetric representation of temperature spheres.
Stream: Vector-based flow fields visualizing wind direction.
Wave: Topographic grids driven by humidity levels.
More Works
2025
Weather Data Sculptor
A Python tool that converts live weather data into 3D visualizations. Pick cities, choose a visualization type, and generate interactive models based on real temperature, humidity, and wind patterns.
Python
Data visualisation
This project explores the visualization of invisible environmental forces. By bridging real-time meteorological data with generative geometry, the application transforms raw atmospheric parameters—temperature, humidity, and wind velocity-into immersive 3D sculptures.
How It Works
Users can input any global coordinate to instantly synthesize its "weather signature." The system utilizes custom GLSL shaders to render 30,000 dynamic particles, creating a digital twin of a city's current climate.
Nebula: Volumetric representation of temperature spheres.
Stream: Vector-based flow fields visualizing wind direction.
Wave: Topographic grids driven by humidity levels.
More Works