ización de estructuras, panelización de superficies, gestión y conexión con tablas de datos, automatización de dibujo, programación visual … Adjuntamos el temario del cuso. El contenido del curso ha sido revisado y ampliado, gracias a la experiencia de nuestros anteriores. Está orientado a profesionales y estudiantes de arquitectura y diseño en general.
Será impartido por dos Authorized Rhino Trainers en Madrid, en la calle Bailén. Tiene un formato intensivo de 18 horas; el horario es: viernes, de 17 a 21; sábado, de 10 a 14 y de 16 a 20; y domingo, de 11 a 14 y de 16 a 19. El número de asistentes está limitado a un máximo de 8 personas.…
Added by Miguel Vidal at 11:11am on December 17, 2009
channel/UCc6HWbF4UtdKdjbZ2tvwiCQ/playlists
And Mostapha made a tutorial series on daylight from his workshop at Penn that you can find on this page:
https://www.youtube.com/user/MostaphaSad/playlists
If the child and parent component does not work, it should give you an error about what is going wrong. If not, make sure that the inputs are not in separate data trees branches (flatten the inputs). List alignment, list management, and data tree structures are really important for anything in Grasshopper and it might be a good idea to see if you can find some videos explaining these concepts.
You can account for shades in your EnergyPlus runs by using the "Window Shade Generator" component. You will have to create your own CSV schedules showing when the blinds are pulled that is aligned with the conceptual shading schedule (see videos 20 and 21 on the HB Energy Modeling playlist).
-Chris…
la generazione ed il controllo di forme complesse. La didattica è organizzata secondo moduli che coprono gli aspetti più importanti del software e prevede lezioni frontali ed esercitazioni guidate. Il workshop e rivolto a studenti e professionisti con conoscenze base di modellazione tridimensionale.
Tariffa EarlyBird entro 20 Gennaio 2015
Main tutor: Arturo Tedeschi, Authorized Rhino Trainer, autore del primo manuale su Grasshopper “Architettura Parametrica”, di AAD_Algorithms Aided Design e co-director della AA Rome Visiting School (AA School London).
>scarica il pdf con tutte le informazioni: AAD GRASSHOPPER WORKSHOP SERIES
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ou would do the following:
dim int1 as new inteval(0,1)
I suggest that you "reparameterize" your surface in code which happens like this:
(assuming that "sur" is a surface you've brought in or already dim'ed)
sur.setdomain(0, int1)
sur.setdomain(1,int1)
then if you want to cut the surface up into whatever pieces you can use the domains like percentages so 0 to .2 would be from the start to 20% and .2 to .3 would be 20% to 30% and so on.
I am not quite sure what you want with the chopped up domain unless you are trying to split the surface in which case please see the ghx I attached.
you could run that trim in a for loop to get a bunch of parts and add those surfaces to a list. Let me know if this is not what you needed and I'll see what I can do to help.
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is possible to import data of a single cell then turn that into a line.
1) Is it possible to select a single cell in Excel and Import it to Grasshopper through the File Path or Read File function?
2) Can the value of the cell, say A2 = 45, be turned into the dimension of a line instead of a component of a point, or as the length of a vector?
3) Last would be if it is possible, could use the cells, A2 = 45; A4 = 20; A6 = 53, as the length, width and height dimensions, using the Geometry tool?
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which I understand analyses only 2 octave bands (500 Hz and 2 kHz) instead of the 8 bands (for which the STI component requires background noise.)
Or have I misunderstood this metric and the three values mean something else?
For reference / a minimal definition I have the open office example (gha and 3dm attached) which includes 20 receivers and the sti results show three values for each (see the image).
Thanks in advance Roly…
in degrees. So at 1, all lines increase by 1° as they move in x.
I wanted to have multiple "panels" of lines, and be able to increase or decrease the number of panels.
Something like this:I actually made a previous thread about this, and a very kind man suggested evaluating the curves instead of dividing, but that pretty much changed the whole definition.
Easy solution, copy the whole definition by the nr of panels desired and change the angle slider on each one.
So I though about a series of numbers. That gives me control over the nr of panels, and also the inclination or the angle these lines will have.
So right now, I have 20 curves, all divided by x, that gives me 20 lists of points and then I connect all these lists to A. B are just points on xy plane.
If I had multiple values inputted into the division component, and could grab the 20 lists of points that were generated after dividing by 1°, and by 2° and by 3°, etc. I could connect all those lists to A in the line component.
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cture, Rhino treats them as a single flat list. For example a surface can have 10 rows and 6 columns of control-points, resulting in a list of 60 points.
But 10 times 6 isn't the only way to get to 60. If you want to make a surface out of a list of 60 points, you'll also have to tell Rhino how those 60 points should be interpreted in terms of a grid. It could be 2*30, 3*20, 4*15, 5*12, 6*10, and all of the aforementioned products the other way around.
Sometimes there's only one way for a number of points to fit into a rectangular grid. For example if you provide 49 points, then 7*7 is the only way to make it work, but these cases are rare so we always demand you give us all the information required to actually make a rectangular grid of control-points from a linear collection.
As for "Why is it, sometimes we need to attach additional value into it?", this is usually because when you divide a domain or a curve into N segments, you end up with N+1 points. For example take the domain {0 to 5}, and divide it into 5 equal subdomains. You end up with {0 to 1}, {1 to 2}, {2 to 3}, {3 to 4} and {4 to 5}. However there are six numbers that mark the transitions between these domains 0, 1, 2, 3, 4 and 5. This is why you often have to add 1 to the UCount, because the number that controls the UCount often results in N+1 actual points.…
Added by David Rutten at 8:30am on December 25, 2014