de modelación en 3D y aprovechen las ventajas que plantean, como mejorar su proceso de diseño y explorar múltiples alternativas para un proyecto en lapsos de tiempo muy reducidos en comparación de los métodos tradicionales.
En consecuencia, los alumnos tendrán la posibilidad de disminuir sus tiempos de trabajo, con resultados iguales o incluso mejores a los que obtenían con anterioridad; mejorar la calidad de sus presentaciones y, lo que es más importante, ampliar la fundamentación de sus proyectos en el aspecto funcional y formal, dependiendo de las características del proyecto.
Para lograr estos objetivos, se contemplan dos temarios y un ejercicio práctico.
Al finalizar el curso, los asistentes serán capaces de manejar Rhinoceros y Grasshopper en un nivel medio, con el objetivo que el alumno pueda continuar aprendiendo con alguno de nuestros siguientes workshops o de manera autodidacta.
Además del contenido teórico se incluye un ejercicio práctico, la magnitud del ejercicio y el material que se le destine se definirán con base en el número de asistentes.
El workshop tiene una duración de cinco sesiones:
Sesión 1 – Temario de Rhinoceros
Sesión 2 y 3 – Temario de Grasshopper
Sesión 4 y 5 – Ejercicio práctico
El horario es de 9 am a 4 pm, con una hora de receso para tomar un refrigerio.
No es necesario traer el equipo necesario para trabajar, se cuenta con un equipo para cada persona asi como el material de trabajo para el ejercicio práctico, por lo cual se les recomienda que no traigan portátiles u otro material, únicamente dispositivos de almacenamiento si desean guardar sus trabajos.
El costo del evento es de $3,500 estudiantes y $4,000 profesionales.
(Para poder tener el descuento de estudiante es necesaria una constancia de la universidad de la que proviene, acreditando que el interesado está cursando algún semestre de la carrera. Personas graduadas que estén cursando una maestría o algún grado superior no reciben el descuento).
Para apartar su lugar pueden realizar un depósito de $1,500 y terminar de efectuar el pago antes del 15 de abril si es mediante un depósito bancario o el primer día del evento en efectivo.
El evento se realizará en las oficinas de Vegasot, ubicadas en Circuito Cirujanos No. 23-A
Cd. Satélite, Naucalpan, Edo. de México 53100
http://www.vegasoft.com.mx
Para cualquier duda por favor escriban un correo a luzytextura@gmail.com, por teléfono al 044 55 4381 3302, o en facebook.com/archbernardorivera…
(a,m,e,s). It doesn't work with intersections AT ALL ... thus the presence of holes, cats, dogs (and quite probably one alligator) etc etc means nothing to the method.
2. The right one assumes that your input (breps and lines) is wrong: (phase a) it "corresponds" each brep with the right line and (phase b) creates the right (per brep) vectors for the stepped [step = v.Unitize()] translation. Then (phase c) each brep is moved > using a function exactly the same as the left C# has > distances are sorted and the first is returned from the function (meaning the smallest). If the smallest is > something > thanks > Adios Amigos.
Thus if something = 0.0001 > it's like checking for a non null intersection event.
Now ... if you want all that paranoid stuff to work with the intersecting Breps only > 2 lines of code more > take only the intersecting things and do the magic > leave the others in piece.
Of course for these 2 lines I'll charge you extra (5 cans more of the finest sardines known to mankind)
more soon, Lord (Of Sardines)…
e on the left won't offset at all, while the shape on the right will, to about 5, then it stops working. What is happening that makes it not work? I would guess that it has to do with the shape folding in on itself or clipping itself as it gets smaller or bigger?? Anyone know exactly? And can anyone think of a a way how to be able to offset the shape on on the left?
Thanks!
…
seem to find a working solutution. Doing this by hand is not a option, as I need to export up to 500+ dwg files, so any kind of automation is usefull.
So in essence I need to export 2 layers, with each layer containing a couple of crv's to DWG. The dwg should include this layers structure when opened
In the forum I found two components that should have this kind of functionality, but neither seem to work or is still supported.
I am currently testing with the TTtoolbox plugin and its CADexporter, however this does not support the export of multiple layers. Only 1 layer can be exported.
The Finches components could possibly be useful for export batch processing, but the component is not longer for download as the makers (http://www.nicholas.demonchaux.com/) website is offline. I am currently on Rhino 5, with GH 0.9.0075, so if comeone can share a gha file of this, that would be much appriciated.
Are there alternatives that are being used by the community that i am aware of? As this seem to me has been of use to more people…
adiation results, specially when comparing the results from LB with those of HB.
Issue 1: Results so different.
In the attached file upper part to the right of the canvas you see both definitions (LB and HB). The images obtained show results so different that i can't find a logic explanation (2.46 vs 41 kWh/m2 for the same period of time). I believe that LB are in the OK range. HB are to high for just 5 hrs of calculation. I don't believe the material definition are making such a big difference (though i tried to have them similar).
Issue 2: Can't get annual grid based calculations plotted.
In the attached, right side at the bottom. I get the calculation, but after connecting the results to the HB_readAllTheDSHourlyResults it takes ages to calculate and at the end rhino crashes. Can be that this is a memory problem? Or there is a way to make this work (total annual radiation for GridBased simulation)? For now i disabled the component, but i just wonder ...
Words of wisdom for both issues will be appreciated.
Thanks,
-A.…
is blog http://bit.ly/22eCLl2 to my project, and since the area that needed to be covered is very extensive, it needs a lot more grid. I really want to keep the surface as smooth as possible, I tried to work with 5x5 square grids to speed things up but its very rough and pointy (and its not exactly speedy as well). On top of that, the very end part where I have to create a surface from every grid, it takes at least 5 minutes to even change the slider a little.1. Is there a faster way I can maybe do this? Should I use anything different or scale the model down or something?2. The final form of the surface would follow the outline of the site that I have, requiring trimming after achieving the desired form. Before trimming, since the NURBS (surface4points) aggravate the sluggishness, I tried replacing it with quad mesh but it simply said its invalid, so I tried once with construct mesh. but its still very slow. Is there another way to construct the final surface?
Attached below is the gh file, and here is the 3dm file http://bit.ly/1Uy0tWR I had to use dropbox since its about 40mb.
Thank you.…
connected hyperspace where architecture can be fluid, flexible and vivid, yet the aspect of materiality requires more attention.
Action-designed structures begin to move beyond the utopian proposals of the 20th century’s manifestos and hold a place in the world of realized designs. The AA Athens Visiting School aims to bring users closer to the built environment while revisiting habits of designing, building and experiencing space through materiality. Understanding materiality and form as a ‘unified whole’, the programme integrates manufacturing techniques through the experimentation fabrication of prototypes at a 1:1 scale.
Prominent Features of the workshop/ skills developed
Participants become part of an active learning environment where the large tutor to student ratio allows for personalized tutorials and debates.
The toolset of the Athens VS includes but is not limited to Processing and Grasshopper for Rhinoceros, as well as design analysis software.
Participants gain hands-on experience on digital fabrication.
Design seminars and a series of lectures support the key objectives of the programme, disseminating fundamental computational techniques, relevant critical thinking, theoretical understanding and professional awareness.
Applications
1) You can make an application by completing the online application found under ‘Links and Downloads’ on the AA Visiting School page. If you are not able to make an online application, email visitingschool@aaschool.ac.uk for instructions to pay by bank transfer. 2) Once you complete the online application and make a full payment, you are registered to the programme. A CV or a portfolio is NOT required.
The deadline for applications is 28 June.
Location AKTO College – Athens Campus 11Α Evelpidon Street (Pedion Areos) Athens, 113 62, Greece
Fees
The AA Visiting School requires a fee of £695 per participant, which includes a £60 Visiting membership fee. Fees do not include flights or accommodation, but accommodation options can be advised.
Eligibility The workshop is open to current Undergrad and Graduate architecture and design students, PhD candidates and young professionals. Software Requirements: Adobe Creative Suite, Rhino 5.
For more information, please visit:
http://www.aaschool.ac.uk/STUDY/VISITING/athens
http://ai.aaschool.ac.uk/athens/
For inquiries, please contact:
alexandros.kallegias@aaschool.ac.uk…
hit Commit.
I'm wondering how hard it would be to have an edit box which shows the
number the user could click inside of then type in a new number, then
hit enter. :)
2) How would I go about using one line from a table and assign each
field to a variable? Then, move a slider or something and use the values
from the next row?
background: I'm recreating elbows, Tees, and other fittings using
paramatric scripts, then baking and exporting them. Here's one source
table, http://www.wardfittings.com/Assets/PDFs/0902CatalogColorOld.pdf
page 5, the uniform elbows.
Current Setup: the attached ghx file. Create a point at 0,5,0 in a blank
document with units set to inches, then assign that point to the top
left 'Center Pnt' in the ghx file.
Current workflow:
a) Modify variables A, B, H, and Nominal Dia to match one line from the
table in the linked PDF file, page 5, table of regular elbows.
b) Select the 'Nodes' and 'Surfaces' with a drag box
c) Click 'Bake'
d) Switch to Rhino window, do the 'sellast' command.
e) Drag baked objects along Y axis so the center point is at 0,0,0
f) Run 'Join'
g) Run 'Cap'
h) set the 'node' points to a layer called 'nodes'
i) set the surface to a layer called 'fit-3d'.
j) select the surfaces and nodes
k) export selected
This elbow that I'm doing only has 12 rows, so doing it the above method
doesn't take THAT long. I'm also going to be doing a couple with larger
tables like the Tee on page 8, and in other spec files. As you can
imagine, entering in EACH value into a slider is a bit tedious.
I'd love to take the pdf table, run it through an OCR program to convert
to excel, modify the headers so the ghx script knows what they are, then
paste it into grasshopper, or save it and have grasshopper read it, and
I be able to move a slider or something to to select one line at a time.
Has anyone done something similar? ie: assigned one row in a table to a
predefined set of variables, each variable coming from one field in the row?
Thanks for taking the time to read this message. :)
I'm making a rhino script to do steps d-k, so that part will be much faster.
-Suthern…
which needs to go in the first line only.
Each value K is one element of the knot vector
XYZ is an individual control point. Each point gets its own line/string in the output list
R is the weight of the XYZ point defined in the same line
I can get all these data into separate lists easily enough using the buttons etc. But getting them into the proper order and moving stepwise down the data to generate the desired output string list is eluding me so far.
My thought is to make an array of columns.
Column one is a list of knot values.
Column two is a list of X values.
Column 3 = list of Y values
Column 4=z values
Column 5 is weight values
etc
The idea would be to read the first value in each list into a list of five elements, then make a string out of it. The second value of each column into a separate string on the next line, then the third value from each column into the third string in the output list and so on.The last few values in the output list will contain knot vector elements only, as there are more of these than there are control points. Some of these curves are very long, with many control points, like hundreds and hundreds.
It seems I should be able to pull the lists of interest and combine them into a tree somehow; so far all I have been able to manage is to get them into a single list by starting with control points, then weaving each list of interest successively into the growing list. I'm thinking I need to get the list for each parameter into an individual branch, then read a path across the branches at each index value. But I am missing something about the terminology. I have watched a few videos and it makes sense when people are pulling nested geometry out of models, but this is a little different. More of a data management issue. I'm sure if I wrestle with it I will get it, but it may not be pretty. Any pointers appreciated. A couple of approaches are attached. Not sure whether to loop a list subset through the data or do something else. Thanks,
Karl in LA…