RESEARCH DATE: SPRING 2012
AQUATIC
RESEARCH
PLATFORM
Ivory Acrylic
Team: Andrew Maier Ping Pai Mark Pothier
CELLULAR PANEL: Three Cell Assembly
STUDY MODEL PROCESS: The initial analogue studies focused on the creation of a cellular network formed from minimal cutting and folding. The base geometry was created with triangular cells formed from three simple panels. Each panel contains only three folds and fastens to adjacent panels to form a triangular cell with a central aperture. DIGITAL GENERATION: The folded mesh is generated by several parametric definitions in Grasshopper where the opening and closing of the triangular aperture responds to the degree of submersion into the water. Distance based attractors are employed to control the opening and closing of the apertures as well as the overall depth of the cellular construct.
CELLULAR PANEL: Single Cell Assembly
ASSEMBLY PROCESS: Heat Bending Of Acrylic Components And Assembly Of Cellular Units With Concealed Hardware.
The Aquatic Research Platform is a floating observatory that controls human interaction with marine life. The cellular mesh forms a porous surface where aperture size controls engagement with the water. The areas that rise above the surface of the water contain larger apertures that allow users to pass through the net-like platform and engage with marine life. The submerged areas of the platform contain smaller apertures to provide a smoother walking surface and a protective barrier between human inhabitants and the more dangerous aquatic life forms. To provide for a smooth walking and climbing surface that is appropriate to this type of marine application, the folded panels conceal all hardware connections within the interior of the connective geometry between cells.
SECTION OF AQUATIC RESEARCH PLATFORM
CELLULAR COMPONENT DIVISION AND EXTRACTION FOR FABRICATION
VIEW OF AQUATIC RESEARCH PLATFORM FROM UNDERWATER
FLOATING AQUATIC RESEARCH PLATFORM OF CELLULAR COMPONENTS