To ignite the birth of our design process, we started with the basic organisational structure of the voronoi grid. The intention was to devise a cellular division strategy that is based on points. Density of division is controlled by proximity of the points to each other and the number of points generated.
The separated pods give the flexibility of controlling program and circulation. A modular cell of average density was chosen to carry out more experiments. The cells were merged to form larger assemblies where connection bridges connect modular platforms.
Experiments with different openings of the cell compartments were carried out to attempt different circulation directions.A membrane enclosure was introduced within the cell, where the density of restrain points was controlled by the grid cell edged.
The separated pods give the flexibility of controlling program and circulation. A modular cell of average density was chosen to carry out more experiments. The cells were merged to form larger assemblies where connection bridges connect modular platforms.
Experiments with different openings of the cell compartments were carried out to attempt different circulation directions.A membrane enclosure was introduced within the cell, where the density of restrain points was controlled by the grid cell edged.
A congregational public space was thought suitable for housing the developed forms. Different perceptual projections were though out to examine possibilites of thresholds between spatial transitions.