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Photo: Master's Thesis 15: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:16am on September 10, 2014

Photo: Master's Thesis 08: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:15am on September 10, 2014

Topic: Linking elements of an existing GH file with an existing Visual Studio C# Solution.: ode that builds a 3D model of an octagonal prism using parametric dimensions and later unrolls it to reveal the shape of individual faces of the model. I have also developed an Visual Studio C# solution as the GUI for this GH code. So, I would please like to know how to link the Sliders (WPF Controls) in VS C# to the Numbers Sliders in GH in order to facilitate the dimensional inputs for the model and how to extract the resultant projections of the model from the Rhino viewport into a window in the VS C# code. I hope my questions are clear. Thanks and Cheers!Aravind K S…; Added by Aravind K S at 7:36am on August 3, 2017

Photo: Master's Thesis 12: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:16am on September 10, 2014

Photo: Master's Thesis 11: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:15am on September 10, 2014

Photo: catalog: e, and yet, it doesn't fall into the normal categories of basic geometric shapes as we know them. The exhibition shows two different ways to approach this challenge. Part one: A plywood strip, twelve meters long, curled and twisted into a double loop shape. This geometry is a result of the material trying to resist, and thereby minimize, the forces of bending and torsion. Part two: A computer generated surface, curling and twisting according to user input. Two lists of values control the curvature and the direction of the surface. The resulting single-curved surface will always be developable and unroll to a straight strip. Question: Is there a simple mathematical solution that will produce the same geometry as in the plywood loop? The search continues. Special thanks to David Rutten, McNeel Andy Payne & Jason K. Johnson, Firefly Experiments Grasshopper Forum Update: Please contact Fritz Halvorsen at Forum för Arkitektur, to get a copy: info@ffar.se…; Added by Mårten Nettelbladt at 2:03pm on April 15, 2011

Photo: Master's Thesis 06: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:14am on September 10, 2014

Photo: Master's Thesis 13: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:16am on September 10, 2014

Photo: Master's Thesis 14: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:16am on September 10, 2014

Photo: Master's Thesis 04: I had no access to specialists in mathematics, computer sciences or material sciences, so please be gentle with me if you see any flops. Title: Aplications of the Strombus Gigas sea snail in architecture Subtitle: Development of a continous derivative structure by applying multi-objective evolutionary algorithms, implementation of an algorithm for the polygonization of surfaces, and development of a biomimetic wood-composite panel. Abstract: The mollusc shells are composed of calcium carbonate crystals sandwiched in a viscoelastic protein matrix. The shell of the Strombus Gigas has an internal structure composed of three laminar layers that criss-cross giving it a much higher mechanical resistance than inorganic calcium carbonate. Inspired by this, a continuous derivative structure is created through the application of a multiobjective algorithms. Later, through the application of a k-means algorithm, this surface is discretiziced into polygonal flat surfaces. And lastly a biomimetric wood based panel is manufactured and structurally tested.…; Added by Jesus Galvez at 6:14am on September 10, 2014