The shape of the installation was generated by a dedicated algorithm. Using algorithms in design allows us to create highly complex forms, browsing through individual iterations, and quick analysis of each version. #3Dprinting #3dprint #design

The shape of the installation was generated by a dedicated algorithm. Using algorithms in design allows us to create highly complex forms, browsing through individual iterations, and quick analysis of each version. #3Dprinting #3dprint #design

The shape of the installation was generated by a dedicated algorithm. Using algorithms in design allows us to create highly complex forms, browsing through individual iterations, and quick analysis of each version. #3Dprinting #3dprint #design

The shape of the installation was generated by a dedicated algorithm. Using algorithms in design allows us to create highly complex forms, browsing through individual iterations, and quick analysis of each version. #3Dprinting #3dprint #design

The shape of the installation was generated by a dedicated algorithm. Using algorithms in design allows us to create highly complex forms, browsing through individual iterations, and quick analysis of each version. #3Dprinting #3dprint #design

The shape of the installation was generated by a dedicated algorithm. Using algorithms in design allows us to create highly complex forms, browsing through individual iterations, and quick analysis of each version. #3Dprinting #3dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The printing was done using ZMorph printers based on the open-source RepRap machines. The 3D model was converted into horizontal “sections” which were then used to generate the movement sequence for the extruder. The extruder head deposits the printed material using a 0.5mm nozzle. Five machines were busy printing the elements of the installation around the clock for 3 full months. #3Dprinting #3Dprint #design

The installation consists of 3160 cells that were divided into more than 800 parts. The installation utilizes and combines the skills and abilities of all the people that helped design and produce it, including algorithm-supported design, 3D printing, video mapping, and designing and programming interactions using Kinect. #3Dprinting #3Dprint #design

The installation consists of 3160 cells that were divided into more than 800 parts. The installation utilizes and combines the skills and abilities of all the people that helped design and produce it, including algorithm-supported design, 3D printing, video mapping, and designing and programming interactions using Kinect. #3Dprinting #3Dprint #design

The installation consists of 3160 cells that were divided into more than 800 parts. The installation utilizes and combines the skills and abilities of all the people that helped design and produce it, including algorithm-supported design, 3D printing, video mapping, and designing and programming interactions using Kinect. #3Dprinting #3Dprint #design

The installation consists of 3160 cells that were divided into more than 800 parts. The installation utilizes and combines the skills and abilities of all the people that helped design and produce it, including algorithm-supported design, 3D printing, video mapping, and designing and programming interactions using Kinect. #3Dprinting #3Dprint #design

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