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Facade pattern changes parametrically based on the Wind.
An innovative aspect of the Taiwan Tower is its unique design of the façade and internal energy systems. The endeavor is to aim for the maximum optimization of energy by the use of natural air forces and light as natural sources of energy. The results are aimed at achieving significant savings on the average consumption of energy. Furthermore, a secondary structure could be utilized to support additional elements such as wind turbines.
Concrete filled steel profiles follow in sinus waves from the ground level to the top of the tower, creating a distinctive identity and complementing the tower design. The concrete filling will give additional strength to the structure and it will provide fire protection to the steel profiles. The facade structure adjusts to the building programme and to the structural forces.
all the parameters can be modified, including trusses, lightspheres, form determining curves and functions etc.
The MakerBot can be sent GCodes which weren't created in skeinforge. The GCodes used to create these spirals were generated on-the-fly at print time; each layer has the formula:
X = A * i * sin( i * B)
Y = A * i * cos(i * B)
Elliptical spirals can be made by using a different value of A for X and Y. Lisajous figures would result from differing values of B, but I wasn't sure what'd happen to crossovers so I left that experiment for later.
Installation at the Digital Design Department, University Kassel, Jonas Coersmeier, 2008/2009
Nanotectonica integrates electron microscopy, parametric modelling and digital fabrication into the architectural design process.
The installation was developed at the Digital Design Department, G. Professor Jonas Coersmeier, University Kassel, School of Architecture, during the summer of 2009. Research assistant: Kathrin Wiertelarz. Participating students: Giampiero Riggio, Roberta Ragonese, Ljuba Tascheva, Jan Weissenfeldt, Pat Taylor, Katja Pape, Rania Abdurahman, Christina Finke, Shahram Abbasian, Michael Quickert.
photo: studio blåfield
Designed as a way of adding a Neutral Density (ND) filter to the front of the P6*6 Pinhole camera.
www.thingiverse.com/thing:157844
Decreasing the amount of light exposing your film is a handy way of slowing down an exposure in very bright light. A "fast" pinhole exposure might be 1 or 2 seconds long. At these shutter speeds, the slight camera shake induced by opening and closing the shutter can blur the photograph.
Download the OpenSCAD files at:
Installation at the Digital Design Department, University Kassel, Jonas Coersmeier, 2008/2009
Nanotectonica integrates electron microscopy, parametric modelling and digital fabrication into the architectural design process.
The installation was developed at the Digital Design Department, G. Professor Jonas Coersmeier, University Kassel, School of Architecture, during the summer of 2009. Research assistant: Kathrin Wiertelarz. Participating students: Giampiero Riggio, Roberta Ragonese, Ljuba Tascheva, Jan Weissenfeldt, Pat Taylor, Katja Pape, Rania Abdurahman, Christina Finke, Shahram Abbasian, Michael Quickert.
photo: studio blåfield (8016 l.res)