-life fabrication issues ... then ... well ... that's the reason for the Skype.
2. In general I would say that exploiting parametric "arrangements" (in the broad sense) is less than 5% of the whole ... given the fact that in real-life there's a lot of other constrains. Again using Kim's IKEA note: for instance packaging (at least for the magnitude of IKEA's business) is rather more important than ANY smart of stupid design.
3. Reliable components VS Design/Manufacturing cost IS the ultimate "fitness" challenge: this involves bottom-top design disciplines (not doable with Rhino/GH by any means) and ... well... some top dog feature driven MCAD app. Most makers/designers use the cheapo alternatives (SolidWorks/Creo etc etc) and the results ... well .. you get what you've paid for, he he.
4. Why bottom-top may you ask? (and what means this anyway?) Well ... one "connecting node" that would been made 1Z times at the minimum cost possible is a 100 times more challenging task than designing a shelve system that uses that node. See for instance A LOT of IKEA solutions (i.e. the nuts and bolts of them) that are exceptionally flimsy, very badly designed and ... well ... suitable for 1 week's usage (but there's some others that are less faulty). On the other hand IKEA actually serves the ephemeral ... thus ... this MAY be intentional (recycle > buy > recycle > buy > ...).
I buy therefor I exist.
For instance a certain IKEA mold injected "multi join node" for a given series of shelves ... it would sustain less than 5 minutes "abuse" (in case that someone would attempt to "rearrange" things). Moral: reality and theory ARE not the same thing.
I could continue until the end of Time listing "aspects" of the whole puzzle related with production issues ... but for the moment I would conclude by the following:
GH is a good "general" purpose graphic editor and Rhino IS NOT a feature driven solid modelling app. If you combine these 2 ... you can easily outline what you can and what you can't (or shouldn't) do on that subject.…
if you can't resolve the details ... well ... they do that as well. For Europe contact my good friend Peter Stevens. (BirdAir).
In general: PRIOR designing ANYTHING (at all) you must formulate some kind of collaboration with a specialized manufacturer. Problem is that ... er ... if they don't know you they don't give much attention (this is a rather "closed" AEC sector).
On the other hand if your membrane is bespoke designing the components (anchor plates, masts, tensioners etc etc) and/or using bespoke ones available in the market (not many around. mind)... well ... this IS the core of the matter. Rhino is NOT suitable for that kind of stuff by any means.
Kangaroo 1/2 is the way to go when inside GH. Other apps especially the "pro" ones are very expensive. BirdAir has the best software for that matter but is mostly an internal product available as well only for few "strategic" partners as they call Architects who can design that kind of stuff.
Other than that have some fun:
Tensile Membranes test3 - Grasshopper
And this ... well ...is about NOT doing it:
Need help about using Kangaroo for form finding
…
igned by this software may be terrible, this is how the future is being shaped, so an understanding of the technology is important.
http://bimandintegrateddesign.com/2014/10/24/googles-bim-busting-app-for-design-and-construction/
https://vimeo.com/107291814
-Projects are due May 8th at the WAAC Final Gallery (I think at 5:30 PM). You will have your board(s) pinned up and your physical model complete underneath. The location is still being worked out, so I will let you know when I know. After the physical submission, a digital submission is required as well. There should be at minimum -
A board with the discussed drawings and images below, named LastName_FirstName_FinalProject.pdf
A photo of your physical model (if not included on the board), named
LastName_FirstName_FinalModel.pdf.
These should be posted on the dropbox sometime before the last day of the semester. Your project will not be graded if you do not physically submit on May 8th and digitally submit sometime before the semester is over.
-Project brief is below
Project Brief: Up until now, you have been using grasshopper to develop, analyze, and fabricate architectural ideas in a very controlled format. The final project is a chance to combine this knowledge with your own design intent and aspirations. The project will use specific deliverables to spur growth, but also allow for you, the designer, to do what you please within the following boundaries.
Requirements:
# open project# must be a design project # story of what you are designing and why you are using grasshopper - specific design intent# must have physical scale model # must have 24” x 36” board - made in Adobe InDesign or Photoshop # grasshopper definition image # 1 artistic rendering - any format - with scale figures # 5 iterations of your project must be presented # 1 diagram to visually describe your project # text describing project # process drawings - photos/sketches/models/other iterations# this is the bare minimum - to have an excellent project, one must go above and beyond these requirements# talk to me if you have out of the box ideas of presenting/ teams / etc...
That is all, there are no assignments due this week, just keep working on those projects. I am available for help during the week, just email or post in the forum. USE THE GRASSHOPPER FORUM IF YOU ARE STUCK. There are many people on here that are way smarter than I that can help you.
See you all next week!…
chitecture for quite a while. I've been through all versions of 3DS Max and I've used Maya and Softimage as well. In the last 3 years though, I started using the 3D apps as an architectural design tool, but you must already know that this it not the main purpose of them.
That's when a friend of mine introduced me to GH and I was blown away by it. This is like THE perfect thing for design. I'm currently designing a high-rise for a city here in China where I live and it has a very intricate twisting, thus I took the leap and started learning GH, but I think they time it'll take me to learn it will far exceed the time of this deadline so I did the whole model in 3Ds Max, but it was a real pain in the ass moving every individual row of vertices manually, and leading myself but nothing but rudimentary techniques to make it look right, and still, it doesn't look as I want and when having to modify it, it's just another full exhausting day at work.
Anyway, that's briefly the reason. I'm hoping to learn a lot from here. If you have any essential sources (preferably updated) from where I can push my knowledge do let me know please!
Thanks!!…
priety software). Think Kangaroo with RON 100 fuel (add some nitrous oxide).
Back to domes.
1. Obviously you know the free WinDome Bono thing...but anyway get it (code included).
2. As I said on another thread (http://www.grasshopper3d.com/forum/topics/the-necessity-for-a-data-tree-manager) ... the big thing in AEC (because, for instance, nobody does domes for decoration/artistic stuff etc etc) is how to implement already designed things (see images above) within a smart stuff definition (or many).
3. Goes several steps beyond: these "breps" (to speak GH/Rhino language) are in most cases nested and some parts are "locked" for transformations some other not. That's the big thing when trying to outline real-life AEC solutions in the so called Smart applications. I think that this is not doable in Rhino since there's no way to edit (in place) a nested block.
4. Goes even further: for each custom made thing (truss nodes and the likes) ... there's a bill waiting. Meaning that the less customized a solution is (with regard industrial sourced existed parts) the more is possible for the client to sign the dotted line.
Best, Peter…
ple and/or easy.
I use GH/Rhino (really GH almost exclusively) for design. I find the parametric capabilities of GH simply spectacular. The Autocad apps are all quite good (and free) so I would have no problem recommending any of them. Meshmixer is a common starter for people new to 3D printing; it is targeted at more "free form"/artistic designs that is Tinkercad, which is more oriented for geometric/engineering/architectural designs. Sketchup is also a good place to start with 3D design; it used to be owned by Google but is now owned by a 3rd party company.
For slicers I've tried them all and have settled on Craftware. It's free and available at https://www.craftunique.com/craftware. For backup to that (it is still a beta product) I use Simplify3D (very seldom) but it costs $150.
If anyone cares I have uploaded an updated version of the Stepwell GH file; I tweaked it a bit to make it a little simpler and to make the base thicker so it would be more robust when printed. The dimensions of the part are large so it has to be scaled down to fit a particular printer. This is easily done with any slicer. The STL file from Rhino still has to be fixed; as exported it would print with no bottom - and I haven't figured out why that happens.…
Added by Birk Binnard at 12:36pm on February 14, 2016
subsequently able to retain a higher level of flexibility.
In Rhino however a rectangle is defined as only a plane and two numeric intervals (one for x, one for y). The possible solutions to this would be:
Extend the Rhino SDK Rectangle3d type to include constant radius fillet corners. This can be done, but is a lot of work and will break the SDK.
Create a new type in Grasshopper which is smarter than Rectangle3d. This complicates developing for Grasshopper because now you have to keep two different types in mind whereas before only one was needed.
Remove the Fillet Radius input from Rectangle components. I like this solution because it results in cleaner, simpler code, but it does mean people may need to use two components where before one was sufficient.
Make the Rectangle type smart enough so that it can recognise filleted rectangles and undo the filleting. This is something I can do right now for Grasshopper 1.0 and it in all likelihood would not break actual existing files even though it is technically a behavioural change.
I'll try and get (4) done for Rhino 6 SR1, I might decide to do (3) for Grasshopper 2.0. I sincerely doubt that (1) will ever get done and I dislike (2).…
Added by David Rutten at 4:38am on November 6, 2017
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
…