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Grasshopper : Parametric Space | Gozour Workshops Lecture: World Space & Parametric Space; Curve & Surface Evaluation; Re-parametrization Training: 2D Grids; Point Decomposition; Numbers Remapping; Numbers Formatting; 3D Poly-lines Workshop: Structural Building Skin Based on a Polygonal Grid Here is the workshop Grasshopper definition … Here is a quick review of the workshop … 01. 02. 03. 04. 05. 06. 07. As an exercises, try to convert these polygons into 3d panels … Try the “Weaverbird” components ( to smooth the results a little bit … Like this: Like Loading... T-Splines Fabrication Grasshopper: Parametric CurvesThis module covers the basic parametric properties of curves along with common grasshopper methods for evaluating and dividing curves. ARCH 598 Summer 2011information >> n-formations FABRICS // LATTICES // FIELDSThis course is designed to introduce and explore computational design, algorithmic thinking, and digital manufacturing–both: the larger ramifications that emerging digital technologies and ideas are having architectural theory via readings, discussions, presentations; and the practical application of these ideas and tools through a series of hands-on, iterative modeling and fabrication assignments. ARCH 581/498 : Fall 2010Digital Design + Fabrication Foundations I Grasshopper: Surface to Planar TrianglesGrasshopper : Surface to Planar Triangles : Fabrication Layout of Planar Components Laser Cutting: Adobe IllustratorLaser Cutting from Adobe Illustrator

concept SKETCH IIT design studio fabricates pavilion of carbon fiber panels via Parametric design Flexible – Vertebra by Liviu Paicu While experimenting with the “Future Wood” Resysta beams I came with the idea of … Continue reading Intelligent panels – by Liviu Paicu The following video showcases a new type of interactive panel design created by … Continue reading Evolving Maya nCloth patterns by Matthijs la Roi This post is a sneak preview in the design research of Matthijs … Continue reading Parametric Structural Tessellations and Morphologies | 74 FOOTWEAR DESIGN CONSULTING The honeycomb is probably the epitome of structural efficiency. Bees have been creating hexagonal comb structures for millenia and humans inspired by the incredible structural strength to weight ratio of their combs have joined them. It is said that the first man-made honeycomb was made by Daedalus using gold by lost wax casting more than 3000 years ago. In 1859 Charles Darwin said that “the comb of the hive-bee, as far as we can see, is absolutely perfect in economizing labour and wax”. Little noticed is that even the the closed ends of the honeycomb cells are also an example of geometric efficiency as their trihedral shape allows two opposing honeycomb layers to nest into each other, with each facet of the closed ends being shared by opposing cells. 50 years later D’Arcy Wentworth Thompson discovered that bees build their honeycombs first as cylinders and as they push more wax onto the inside surface they also push the soft sides out and up against the neighboring cylinders.

Inside Smartgeometry Inside Smartgeometry: Expanding the Architectural Possibilities of Computational Design Edited by Brady Peters and Terri Peters On behalf of the Smartgeometry group, we would like to invite you to the launch of "Inside Smartgeometry: Expanding the Architectural Possibilities of Computational Design" edited by Brady and Terri Peters and published by John Wiley & Sons. To celebrate the book´s release, join us for drinks and a few words by the Smartgeometry Directors. 21 March 2013 6.30 pm The Bartlett School of Architecture UCL, Royal Ear Hospital Ground Floor, Capper Street (corner of Huntley Street) London, WC1E 6AP Smartgeometry (SG) is a key influence on the architectural community who explore creative computational methods for the design of buildings. When SG was founded in 2001 by London-based architects and friends Hugh Whitehead (Foster + Partners), J Parrish (AECOM) and Lars Hesselgren (PLP), there was little in the way of parametric tools for architecture. Robert Aish Martin Bechthold

Artists | codedchromics I hadn’t heard about this before but fist (whoops, mean first) saw this earlier this month mentioned on Syuzi Pakhchyan’s blog Wearable Technology (always an inspiration!) Sophie de Oliveira Barata offers a ‘real’ option ‘surreal’ option and an ‘unreal’ option – you’ve just got to love that! Here are some of the incredible decorated and unusual prosthetics from The Alternative Limb Project - “The Alternative Limb Project offers a personal and friendly bespoke service, which provides unique prosthetics to blend in with the body or stand out as a unique piece of art, reflecting the wearer’s imagination, personality and interests. We will involve the wearer in all stages of the process from conception of ideas to the final work. Read more about what they are doing here Like this: Like Loading...

tensegrity - home no boxes! Fritz Obermeyer’s Jenn is a nicely crafted java application that allows a playful examination of structures in non-Euclidian space, more specifically Coxeter polytopes in stereographic projection. These complex geometric structures are the 4-dimensional Sisters to the polyhedra and have, what seems like, recursive interiors and packing formations that resemble bubbles in foam. The applet allows you to fly through these structures and orient the camera view according to your whims; other controls include toggles for the kind of rendering display settings. Perhaps I shouldn’t report it, but there are also some nice rendering glitches on some of the selected models on certain views. The word ‘polytope’ was introduced by Alicia Boole Stott , the daughter of logician George Boole. You might experience a feeling of non-Euclidean déjà vous while roaming around Jenns polytope space , the experience of space is a lot like being in one of Escher’s drawings.

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