comerciales. Rhino permite comunicar ideas en el desarrollo, investigación, manufactura, marketing y proceso de construcción de un producto o espacio, antes de ser construido y genera documentos constructivos para la elaboración de los mismos. Permite exportar los archivos a las extensiones comerciales más utilizadas en la industria como DXF, DWG, Illustrator y 3ds entre muchos otros. La gran cantidad de extensiones suplen las necesidades especificas para arquitectura, diseño de producto, calzado, joyería, ingeniería, manufactura y visualización fotorealista.
Grasshopper es una extensión de Rhino que permite el modelado paramétrico sin tener conocimientos de programación o matemáticas avanzadas, facilitando el desarrollo de modelos de alta complejidad a partir de formas simples o complejas.
En este taller se cubren los principios de parametrización, analisis, panelización, Corte CNC.
Sesiones: 15 de 3 hrs
Duración: 45 horas
Días: lunes, miércoles y viernes
Horario: de 19:00 hrs a 22:00 hrs
Costo:
Pago único: $4,000 (antes del inicio del taller)
Pago fraccionado: $4,500
Primer pago: $2,000 para reservar tu lugar.
Segundo pago: $1,250 - 26 de septiembre
Tercer pago: $1,250 - 3 de octubre
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xtract picture frames with one small app[adapter]. I get a total of 131 images, [ So in fact they are the same as screenshot] and I use this image as imagery to 3d photogrammetry. Probably this is incorrect, but it's how far I can go without drones in place.…
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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as the design table? I think this could be 'drawn' and constrained in Inventor in a lot less time. I know the GH model would have a lot of flexibility, but in this case, what can you do with it that wasn't provided by an Inventor model?
Only the 27 lines mentioned were modeled in Rhino, the rest is modeled with GH.
The 5 hrs involved thinking about the approach, defining vertical lines, tilts, elevations, pitch of the roof, intersections.
Once I had decided what my approach would be, and tested the logic with those first lines, points and data path arrangements, it only took one more hour to get to this:
Which is actually quite fast, compared to MCAD workflows.
If you already have components (columns, beams, etc.) modeled and ready to drop into a project, of course it is lightning fast to model simple projects like this example.
I am not as much interested in those situations, because improving efficiency is straightforward and obvious.
I'm more interested in situations where there are no pre-defined families of objects, in which case you need to start from scratch.
The GH model I'm showing is modeled from scratch, except for the 27 lines in Rhino.
Here's one obvious advantage to modeling with GH, once the definition is set-up, it's virtually effortless to change inputs and alter the overall design. Here's an example, lets say we wanted to extend the roof 3 more units, curling away from the original direction.
Plan view before:
And after:
An MCAD app will also allow you to do this, as long as the location of additional elements follows the existing geometric method of definition. What happens if you want completely change the way you locate columns, roof slope, intersection points?
In MCAD, you'll need to re-model the underlying geometry, which will take the same effort as the first round. In GH, this process is not only much faster, it's open to algorithmic approaches, galapagos, etc. and it just takes some simple re-wiring to have all down-stream elements associate themselves to this new geoemtric definition.
For instance, here's the same definition applied to two curves, which are divided in GH, the resulting points are used as a starting point for lines directed at normal from curves.
This is not so easy to do in MCAD.…
Added by Santiago Diaz at 7:55pm on February 24, 2011
, HVAC, blah blah).
BIM is NOT a parametric process at least having in mind graphical editors the likes of GH (or stuff the likes of Generative Components): it's a holistic data management approach. Some concepts used in BIM apps (for instance in AECOSim etc) the likes of "walls"/"openings" etc are "parametric" in the sense that allow auto perforation of this with that. On the other hand AECOSim is feature driven (since Microstation works in that "mode" as well) ... a thing that complex things even more with regard what is actually "parametric" and what not.
BIM is as good as the meta data structure is (especially the spec related aspect - Goggle MasterFormat and the likes). BIM AEC apps are notoriously incapable to work (without a lot of lines of code) with proper RDBMS. On the other hand Bentley Systems ProjectWise ... well ... but that's another animal (by no means a topic for the inexperienced).
In descending order or importance a contemporary AEC practice should use:
1. A general information "controller" like ProjectWise (who said/did what/when/why).
2. A Specs (say CSI - not the TV soap opera) management app.
3. Several Meta data RDBMS.
4. A BIM suite of apps.
5. Optionally some parametric thingy.
PS: For AEC ... when inviting the parametric thingy to the party you have only 2 options:
ProjectWise + AECOSim + Generative Ciomponents (my choice).
?? + Revit + Dynamo.
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Or if this doesn't work the the lines who's end points Y value doesn't match
5) join all remaining curves. this gives you polylines for each row.
6) From these you can extract control points that will be on differrent branches
i would demonstrate this but i'm stuck watching the wedding at a friend's and until mcneel makes a rhinoid with gh app you'll have to wait 'til later…