and Grasshopper installed, or Rhino 6. 2-Install GHPython from here (Rhino 5 only). 3-Select and drag all the userObjects (downloaded here) onto your Grasshopper canvas. 4-Restart Rhino Grasshopper.
Check out our example files to get yourself familiar with typical SkinDesigner workflows. Also SkinDesigner Tutorials will be posted in this YouTube playlist as they become available.
You should also feel free to post any questions, feature requests, or bug reports to the SkinDesigner Grasshopper Group as discussions. Finally, SkinDesigner is an open source project and all of the project’s source code is visible on SkinDesigner’s Github site as well as within the Grasshopper components (by double-clicking on them).
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ions - essentially Shape Changing. Pufferfish mainly uses parameters and factors for inputs for more custom control over operations like tweens and grids as opposed to grasshoppers usual division count inputs. These components are accompanied by support components which are useful methods for tween / blend / morph / lattice operations such as making curves compatible, a custom curve graph mapper, and a multi-threaded morph to twisted box. In addition, there are extra components which simplify some common grasshopper operations such as testing for equality within a tolerance and rounding to nearest numbers. Please email me if you find any bugs. Works with Grasshopper for Rhino 5, Rhino 6, Rhino 7 WIP, and Rhino Mac.
Instagrams: @ekimroyrp & @designmorphine
Download:www.food4rhino.com/app/pufferfish…
Added by Michael Pryor at 2:23am on October 17, 2017
onstrates the following:
1. The definition's functionality employing HumanUI for the custom user interface.
2. The evaluation of the definition's ability to handle different point cloud data sets.
3. Video reports with the definition's results, depicting the image acquisition path.
The process is displayed in real time, with minor speed up in some parts. The setup is responsive and benchmarks show that change between dense point cloud data sets is pretty quick (13-15M points, 40-250 images), with updates being calculated in impressive timings.
I would like to thank Heumann A. and Zwierzycki M. who provided direct support with HumanUI and Volvox. Also Grasshopper3d forum users Maher S. and Segeren P., who contributed with Rhino viewport manipulation scripts.
More on Volvox:
http://papers.cumincad.org/cgi-bin/works/Show?_id=ecaade2016_171&sort=DEFAULT&search=ecaade%20volvox&hits=2629
http://www.food4rhino.com/app/volvox
http://duraark.eu/
HumanUI:
http://www.food4rhino.com/app/human-ui?page=1&ufh=&etx=…
is a exhibition building) generic outline (easy with GH), (b) real nested parametric part inclusion in the definition (hmm), (c) a GH ability to bake structured geometry to Rhino...and then Rhino (acting as a "companion" app to a given AEC app + FE analysis + cost analysis + ...) export properly structured data.
2. "Whole" and "Detail" here are tightly related : there's no meaning to promote an "idea" without solving the nuts and bolts of it. This is the so called "bottom-to-top" design mentality.
It's a mystery to me why GH doesn't include, say, some ways to control bake on a per block basis (actually on a per nested block basis).
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j. to rhino for architectural scenes.
(unispiring ... I admit)
On recent iOS the app doesn´t work any more, so I figured out, if I should think about making a "light" version of that plant growing thing, with a definition on GH,...
I try to imagine any kind of simple setup to start with,
since I am a middle / low skilled GH user celebrating allways the taste of succes ...running an ordinary GH definition.
Angelos
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is a set of 188 components which focuses on Tweens, Blends, Morphs, Averages, Transformations, & Interpolations - essentially Shape Changing. Pufferfish manily uses parameters and factors for inputs for more custom control over operations like tweens and grids as opposed to grasshoppers usual division count inputs. These components are accompanied by support components which are useful methods for the preparation of tween/blend operations such as making polylines compatible and matching surface structures. In addition, there are extra components which simplify some common grasshopper operations such as testing for equality within a tolerance and rounding to nearest numbers. Please email me if you find any bugs to help make this toolset better. Works with Grasshopper for Rhino 5, Rhino 6, and Rhino Mac. Pufferfish is written in C# as a .gha file.…
ents instead of code ... it could yield a nightmare of components (and a myriad of parameters). For real-life designs I would never attempt to do this without code.
2. A certain experience with Kangaroo (or some min surf other thing since using K on these ... well may be the killing a mosquito with a bazooka thing). That said I'm a great admirer of Daniel's work. But on the other hand why not?
3. A "certain" experience with trusses/space frames.
4. A "certain" experience with instance definitions (that's not doable with GH components).
5. Years of experience with parametric feature driven MCAD apps - Image35 (NX/CATIA) for designing the real-life parts (that have NOTHING to do with "abstract" concepts).
In total I would say that a similar "app" with code (excluding the min surf/mesh thing) would require 6-10 full days of work (or even more).
BTW: https://www.google.com/url?q=http://www.grasshopper3d.com/forum/top...…
exploran los principios básicos de Grasshopper en Rhino 5 para desarrollar algoritmos de superficies responsivas a datos generados por dispositivos y aplicaciones como: iPhone/iPad/iPod, Android, GPS, Kinect, etc.
Es necesario traer tu Laptop con Rhino y Grasshopper instalados.
Rhino: http://download.rhino3d.com/rhino/4.0/ev aluation/download/
Grasshopper: http://download.rhino3d.com/Grasshopper/ 1.0/wip/download/
Cupo Limitado
info@dimensiontallerdigital.com
$4,000.00…
th a graphic editor (GH) hosted in a CAD app that has primitive assembly/component capabilities and/or feature driven ops (Rhino). Did I've mentioned that Rhino is a surface modeler? (meaning the obvious).
3. Imagine a "seed" collection of assemblies related with various membrane components made in SW. Say: geometry (prior solid ops) and parameters (the feature driven part of the equation, in most of cases managed with some RDBMS). You should port these to GH (a variety of ways exist for that) and create the bare minimum of "solids" in GH as instance definitions. There's 2 main reasons to do that: (a) effectively communicating back on an assemply/component schema (via STEP) and ... (b) achieving manageable collections when in GH. These are critical for clash detection (when outlining some topology in GH, therefore NEVER work just with "curves") and "variation" control of some sort (up to a point). Of course for high class designs (where the devil hides in the details) this is NOT the best imaginable solution ... you'll need CATIA for such an integrated (all in one) procedure. On the other hand many could (wrongly) argue that CATIA is expensive (rather naive argument if a company has a certain turnover).
4. So, in general I would strongly suggest to use instance definitions of items in some sort of "intermediate state" of detail (an 100% undoable task without code) structured in such a way (classic assembly/component MCAD mentality blah, blah) that SW could take benefit of a possible modified "base topology" and proceed by finishing variations of the given assembly (feature driven stuff as usual).
5. Then export (STEP 214) back portions of the assemblies (and parameters used) to R/GH if and when this is required (for instance for BIM disciplines ... but Rhino is not a BIM app, nor it would ever be).
6. If you are familiar with code matters ... start thinking the whole puzzle that way, if not my advise is to find someone to design such a "procedure" (say an "app") using solely code, but this is not a task for the inexperienced by any means.
best, Peter…