ported to Rhino and "set" in Grasshopper, i trim both surfaces from their rectangular bases so that when sDivide is used it creates and distributes the same number of points on each surface.But heres the problems: a) if i use the "trimmed" surfaces with SrfGrid it errors warning: "A point in the grid is null. fitting operation aborted".I'd learned this was caused by "nulls" replacing position Data Items when the rectangular grid(surface base) was trimmed away. So i used Clean Tree which worked removing all nulls, then Shift Paths\Flip Matrix to create line-endpoint pairs for Polyline\Evaluate Curve. I Flattened the last Flip Matrix placing all data items in one source for SrfGrid, like in the working Untrim\CopyTrim definition.This time,.b) SrfGrid errored with: "The UCount value is not valid for this amount of points",.So, i substituted a 356 value, numeric Slider in the Addition B param., and tested its range until a valid UCount was found. Then SrfGrid fitted a surface thru the points, BUT,d) those SrfGrid surfaces are extremely deformed even thought the points preceding it from Evaluate Curve are accurate,SEE: def: "3b-RGH_SurfaceBlend.gh",AND,.a2) if i use Untrim with CopyTrim then SrfGrid works, but since the Jokers limbs WILL be in different surface positions then the blends between the Arm (for example) will rise from its relative FLAT position on the untrimmed Source surface to the Arm on the Target surface, rather than morphing from the Corresponding Arm position on the Source surface,. ..see def.: "4-RGH_SurfaceBlend.gh"So please let me know,..1) how to produce accurate surfaces from SrfGrid in def.: "3b-RGH_SurfaceBlend.gh",. ..(NOTE: BOTH these def's contain 2 indentical, "internalized" surfaces, but if def. 3b can be made to work it will also work with Dis-similar surfaces)2) which component to use or how else to determine the correct UCount value for a specified amount of points(ie:155), re: SrfGrid error: "The UCount value is not valid for this amount of points",.3) how else to force SrfGrid to work with Trimmed surfaces?, AND,..4) how to force intersurface, point-blend correspondence lines: Polylines(PLine) to be connected between correctly! correponding positions (Limbs) on the surfaces?,
Really! appreciate all help, definitions and kind generosity common to this knowledgable membership,
Cheers!,
Jeff…
s my code, so I decided to write a new simple component refreshing all time at 300 ms interval and the problem came up again. The code provoking the display exceptions and images with the erros are listed below.
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using System;using System.Drawing;using Grasshopper.Kernel;using FirstComp.Properties;using System.Timers;namespace FirstComp{ public class FirstCompGH : GH_Component { private Timer myTimer = new Timer(300); //3 veces por segundo private Random rand = new Random(DateTime.Now.Millisecond); public FirstCompGH() : base("Nombre", "Abreviado", "Descripcion", "Categoría", "SubCat") { myTimer.Elapsed += new ElapsedEventHandler(MainLoop); myTimer.Start(); } protected override void RegisterInputParams(GH_Component.GH_InputParamManager pManager) { pManager.Register_DoubleParam("Op A", "A", "Primer parámetro de la operación",0.0); pManager.Register_DoubleParam("Op B", "B", "Segundo parámetro de la operación",0.0); } protected override void RegisterOutputParams(GH_Component.GH_OutputParamManager pManager) { pManager.Register_DoubleParam("Suma", "S", "Resultado de la suma"); pManager.Register_DoubleParam("Resta", "R", "Resultado de la resta"); pManager.Register_DoubleParam("Mult", "M", "Resultado de la multiplicación"); pManager.Register_DoubleParam("Div", "D", "Resultado de la división"); } protected override void SolveInstance(IGH_DataAccess DA) { // Variables para contener los datos de entrada // Le podemos asignar algunos valores iniciales. double opA = double.NaN, opB = double.NaN; // El objeto DA recupera los datos de la entrada. // Si no hay datos de entrada abortamos. if (!DA.GetData(0, ref opA)) { return; } if (!DA.GetData(1, ref opB)) { return; } opA += rand.Next(1,10); opB += rand.Next(1,10); // Ahora realizamos las operaciones matemáticas DA.SetData(0, (opA + opB)); DA.SetData(1, (opA - opB)); DA.SetData(2, (opA * opB)); if (opB != 0) //Rhino.RhinoMath.ZeroTolerance DA.SetData(3, (opA/opB)); else { AddRuntimeMessage(GH_RuntimeMessageLevel.Error, "Error de división por cero"); return; } } public override Guid ComponentGuid { get { return new Guid("44BEA3FE-7CB8-42fe-AEC9-BE5F6EE424E8");} } protected void MainLoop(object source, ElapsedEventArgs e) { this.ExpireSolution(true); } protected override Bitmap Internal_Icon_24x24 { get { return Resources.icono; } } }}
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Images showing errors.
I can't figure out what is causing these errors.
Best Regards
Ernesto
…
reaky thing consisting from triangulated "modules" (i.e an assembly out of this, this and that) where the exterior edges ARE always under tension (= SS 304/316 cables OR nylon) and the interior ones MAY be under compression ( = steel, aluminum, wood, carbon) OR ... some of them ...may be under tension. Bastardized T trusses deviate a bit from theory ... but who cares? (not me anyway). T trusses have many variants (but as the greatest ever said: Less is More).
2. Large scale T for AEC is the art of pointless since it costs around the GNP of Nigeria. Here's some indicative components from a module of a multi adjustable TX system costing (the module) ~ the price of my Panigale (Google that):
The above is mailed to a friend who has MIT (yes, that MIT: the top dog) on sight ... therefor he needs some appropriate "credentials", he he.
3. The distance that separates the above with the demo TDT node provided is around 666.666 miles - but we don't care: we are after Art not some testimony to vanity.
4. On purpose I've used a smallish ring to give you a clear indication upon the constrain numero uno in truss design: CLASH matters.
5. You'll need:
(a) A decision related with the tensioners (classic Norseman + SS cables or nylon machined thingies?).
(b) A machinist who can do elementary stuff (like the adapters) and can weld this to that (the "ring" for instance). His abilities must be 1 in a scale of 100. If the fella has a computer (not a CRAY) and he knows what 3dPDF is (hmm) ... well ... use that way to communicate with him PRIOR designing anything: He must agree on the parts BEFORE the whole is attempted (as a design in GH or in some other app).
(c) A carpenter with a wood lathe for the obvious. BTW: BEFORE doing any TDT attempt > ask the carpenter about the available wood strut sizes. Against popular belief DO NOT varnish the wood (use exterior alkyd/oil stains from some top maker like the notorious US company PPG).
http://www.ppgpaints.com/products/paints-stains-data-sheets
(d) Good quality cigars (and espresso) plus some classic music (ZZTop, PFloyd, Cure, Stones, U2 etc etc) during the assembly.
(e) Faith to the Dark Side (see my avatar).
May the Force (the dark option) be with you.…
st variety of papers (mostly related with LIDAR airborne sampled clouds) ... but ... hmm ... no code (other than some "abstract" algos that may (or may not) work). Reason? A very hot cake that one these days: from reverse engineering to DARPA founded future defense systems and up to cruse missiles pattern recognition algos.
The solution (obviously doable only via code) is the so called flat hard clustering ... were points are sampled into clusters based on the coPlanarity "rule". For large amounts recursive octTrees (an oriented box divided in 8 "partitions") subdivisions are used and then pts are processed in parallel (and then clusters are re-evaluated in order to "absorb" other clusters with same plane A,B,C,D vars etc etc).
See what's happening in a very carefully made test point collection:
3.7 ms and the "ideal" clustering (7 search loops VS the max 42M theoretical threshold):
Depending on the pts "preparation" ... a considerable more time/search loops is required ... and ... well ... also "valid" clusters (4 points and up) made:
So "ideally" speaking in your case:
1. Mesh faces center points (or alternatively: mesh vertices) are sampled into a pts collection .
2. Hard flat coPlanarity clustering is attempted yielding pts/planes in equivalent DataTrees.
3. Planar Breps are made with respect the planes (like the black things captured above) and sampled, say, into a breps List.
4. The method Brep[] solids = Brep.CreateSolid(breps); is used for attempting to create your desired "engulfing" brep. This method is very slow mind (other waaaay faster approaches also available).
…
nd the tool can create a single surface having the texture of the original input surfaces. (Visualize two waves interacting on the surface of a body of water.) But a surface intersection operations is producing unexpected results, putting my entire algorithm at risk of failing.
I’ve enclosed a .GH that has a simplified version of the algorithm I intended to use to produce a single surface from the two input surfaces. How it works is to use the Brep | Brep component to generate a set of curves where the input surfaces meet. I then apply these cutting curves to a Surface Split component on each input surface. I intended to then programmatically cull the set of brep’s from the split operations, removing all those that aren’t on the face of the target surface. Finally, I would join all the remaining prep’s into a synthesized surface that reflects the facial interactions of the originals. This algorithm is however not completing successfully because the outputs of the Brep | Brep don’t appear to accurately reflect the complete set of curves at the intersections of the 2 faces. I think it’s because of these incomplete set of curves that the Surface Split operations are returning a very incomplete set of sub-surfaces. This sparse set of results don’t allow me to reassemble the sub-surfaces to form a complete synthesized face. This posting includes the Grasshopper document, as well as a screenshot of the GH code. The GH Intersection and split operations take a long time to complete. So I’ve enclosed Bake’d versions of the important geometries in the layers of the 3dm document as indicated below. But this results in a 12MB document, which is larger than the discussion can handle. But i can be downloaded from here. (my Google drive) Scaled Waves - Layer 1 Brep | Brep out - Layer 2 top Surface Split out - Layer 3 bot Surface Split out - Layer 4 I think there are problems in Rhino/Grasshopper related to intersections and splits. But I’m also open to somebody suggesting a better way to accomplish my objective — including workarounds. Thanks for any help, - Bob…
Added by neobobkrause at 8:46pm on August 31, 2016
etric/parəˈmɛtrɪk/adjectiverelating to or expressed in terms of a parameter or parameters.art/ɑːt/nounthe expression or application of human creative skill and imagination, typically in a visual form such as painting or sculpture, producing works to be appreciated primarily for their beauty or emotional power.// Summer School 2017 3 day intensive workshop for design students & professionals will delve into computational & parametric methods (using Rhino3D & Grasshopper3D) to create data-driven art installations, physically manifested into a space through hands-on fabrication & assembly.The experimental studio will run across 2 cities in India (New Delhi & Mumbai) and investigate the agenda of ‘filling the void’ at art installation scale, through the use of computation and parametric methods. Studio is designed as a 3-day event in both cities comprising of technical tutorials, teaching sessions, prototyping & presentations culminating in a symposium / round-table conference / open discussion with leading / emerging professionals that demonstrate computation, parametric design or alternative techniques in their work / practice / academia. // Cities & Dates*New Delhi – 30th June to 2nd July 2017 (Friday to Sunday)Mumbai – 7th July to 9th July 2017 (Friday to Sunday)//VENUE: DELHI: Startup Tunnel, Vihara Innovation CampusD-57, 100 Feet Rd, Pocket D, Dr Ambedkar Colony, Chhattarpur, New Delhi - 110074MUMBAI: Raffles Design International, MumbaiHi Life, 2nd Floor, Phirozshah Mehta Road,Santacruz (W). Mumbai – 400054// Registration DatesAll Registrations End 4 days prior to workshop start date (Or till seats last)// About rat[LAB] EDUCATIONrat[LAB] EDUCATION is an initiative by rat[LAB]-Research in Architecture & Technology (www.rat-lab.org) to start a new discourse in architecture & parallel design disciplines with the use of ‘computational design’ & it’s various subsets. Spread across various cities / countries, we are establishing a global dialogue in the domain of computational design by actively organizing and participating in workshops, lectures, presentations & symposia. While rat[LAB] has taken a top-down approach of exploring computational design through industry, a parallel, bottom-up approach is also in-line to involve students of all levels, from design & related backgrounds.…
a modélisation paramétrique avec Grasshopper pour Rhinoceros3D ainsi que démontrer plusieurs façons de l’appliquer à votre travail architectural.
Cette formation est conçue comme une expérience augmentée autour de l’architecture paramétrique et elle comprend aussi :
+ Une introduction au design paramétrique par Francesco Cingolani+ Une étude de cas d’un projet de l’agence de l’agence HDA Hugh Dutton Associés+ Acces gratuit 3 journées à l’espace de coworking SUPERBELLEVILLE
INSTRUCTEURS
FRANCESCO CINGOLANI . designer, enseignant en architecture paramétrique, co-fondateur deSUPERBELLEVILLE coworking, collaborateur de l’agence Hugh Dutton Associés. – voir le profil Linked-in
ŞULE ERTÜRK . Architecte diplômée de l’Université Yildiz Teknik à Istanbul, Master en architecture paramétrique, travaille actuellement aux Ateliers Jean Nouvel dans le département 3D. - voir le profil Linked-in
QUENTIN GAUCHER . Architecte DE-HMONP, diplômé de l’ENSA Paris La Villette, intervenant en architecture paramétrique sur divers projets - voir le profil Linked-in
DATES 25 mars 2013 . Annonce de la formation / Début des inscriptions5 avril 2013 . Fin des inscriptions13 – 14 avril 2013 . Formation
HORAIRES Samedi et Dimanche 13 et 14 avril . 10:00 > 13:00 – 14:00 > 19:00Total : 16 heures
TARIF700 € professionnels400 € étudiants
RÈGLEMENT50% est à régler lors de l’inscription (au plus tard le 5 avril)50% au début de la formation.Les règlements s’effectuent par carte bancaire via Paypal ou par virement bancaire.
NOMBRE DE PARTICIPANTSMinimum pour l’activation de la formation : 5Maximum : 7
CONTACTInscriptions et réglements : fr.cingolani@gmail.com . SUPERBELLEVILLE coworkingInformations : quentin.gaucher@gmail.comimmaginoteca.com/grasshopper
EN BONUSLe café italien et les plats faits maison de Claudia offerts aux participants :)…
metric/parəˈmɛtrɪk/adjectiverelating to or expressed in terms of a parameter or parameters.art/ɑːt/nounthe expression or application of human creative skill and imagination, typically in a visual form such as painting or sculpture, producing works to be appreciated primarily for their beauty or emotional power.// Summer School 2017 3 day intensive workshop for design students & professionals will delve into computational & parametric methods (using Rhino3D & Grasshopper3D) to create data-driven art installations, physically manifested into a space through hands-on fabrication & assembly.The experimental studio will run across 2 cities in India (New Delhi & Mumbai) and investigate the agenda of ‘filling the void’ at art installation scale, through the use of computation and parametric methods. Studio is designed as a 3-day event in both cities comprising of technical tutorials, teaching sessions, prototyping & presentations culminating in a symposium / round-table conference / open discussion with leading / emerging professionals that demonstrate computation, parametric design or alternative techniques in their work / practice / academia. // Cities & Dates*New Delhi – 30th June to 2nd July 2017 (Friday to Sunday)Mumbai – 7th July to 9th July 2017 (Friday to Sunday)//VENUE: DELHI: Startup Tunnel, Vihara Innovation CampusD-57, 100 Feet Rd, Pocket D, Dr Ambedkar Colony, Chhattarpur, New Delhi - 110074MUMBAI: Raffles Design International, MumbaiHi Life, 2nd Floor, Phirozshah Mehta Road,Santacruz (W). Mumbai – 400054// Registration DatesAll Registrations End 4 days prior to workshop start date (Or till seats last)// About rat[LAB] EDUCATIONrat[LAB] EDUCATION is an initiative by rat[LAB]-Research in Architecture & Technology (www.rat-lab.org) to start a new discourse in architecture & parallel design disciplines with the use of ‘computational design’ & it’s various subsets. Spread across various cities / countries, we are establishing a global dialogue in the domain of computational design by actively organizing and participating in workshops, lectures, presentations & symposia. While rat[LAB] has taken a top-down approach of exploring computational design through industry, a parallel, bottom-up approach is also in-line to involve students of all levels, from design & related backgrounds.…
Rubicon (ii.e. some programming language [I would strongly recommend C#] > the Dark Side > years of pain + tears > hell or heaven?).
Back to that pile or worms of yours (I hate "simple" cases, he he).
0. if you want rounded lips ... Styrofoam is the only solution (+ sanding [buy a mask and some decent cigars ... path is long and hilly]). if not > goto 5/6.
1. by what means you think that you can shape Styrofoam? Do you have access to some CNC foam cutter? Or the only tools that you have are ... 2 hands and a knife? (or a thermal cutter). Accuracy is a BIG issue here: chances are that panels won't "fit". Solution is available in the forthcoming V3.
2. male "protrusions" on Styrofoam is kinda 3rd marriage > AVOID at any cost > this would end up in tears.
3. female ones are safe ... thus we need a proper "insert stripe" that must be compatible with the Styrofoam adhesive and strong enough to hold the pieces until the glue cures (it takes time, there's no instant Styrofoam adhesives around). Maybe aluminum (hard to cut by hand) or balsa (very expensive) or plywood (best option).
4. Some CNC foam cutters they can't shape the female "crevices" > be prepared (a thermal tool may(?) cut the mustard).
Note: panels made with Styrofoam look miserable because reality and theory differ. They also look miserable as well (and kitsch and miserable).
5. making the panels with (marine) plywood ... well this yields far superior accuracy and therefor aesthetics but (a) yields max panel thickness constrains, (b) introduces max panel dimensions constrains (c) yields packing issues [waste material] and (d) requires a totally different "connection" approach: it doesn't make sense to do some female crevice ... unless the plywood is very thick (expensive + heavy).
Note: Designing (pro option) self supporting "rib" reinforced sandwich composite panels ... well this is a bit far and away from what you can handle at present time.
So ... I've suspended the male/female thingy until you decide the final policy: it's the material/detailing that should dictate the method(s) AND the whole design and not the other way.
This is what we call bottom-top design approach (dinosaur Architects follow the top-bottom: disastrous + naive + naive + naive + avoid).
6. Plan ZZTop: make a stand alone autonomous perimeter frame per panel (marine plywood: imagine "thickening" these abstract beams shown inwards per panel) then join these frames by means of bolts (easy) and fill the "gaps" with Styrofoam (hmm). Note: you can reinforce the frames by a variety of means (say: a secondary "beam" sub-structure) achieving a rather elegant all overall solution.
This is the best solution by roughly 666 miles.
…
or a couple of thingies.
Pattern.gh
I defined parametrically a triangle which I then smoothed out to become more like a blob shape. After that I created a pretty simple pattern that I had in my mind (costed me a lot of time to make this in GH) and finally wanted to rotate each element as it goes higher . The dispatching part seems to be working pretty slow, so it might need an optimization, but I’m still happy with the result as it shows exactly what I wanted, so this is a minor issue in my case.
I then decided to try tessellating my extrusions. You’ll see the voronoi script which is a blob-group in the same Pattern.gh:
I had an idea of something and started the code from scratch, then decided to watch tutorials and implement the code shown there. I somehow coped to combine my code with this in the tutorials, but since my knowledge of Grasshopper is zero to basic my code seems to be very unoptimized and lagging.. When dragging the sliders, it takes a lot of time to compute the changes, although, I’m working on a 24gigs 6th gen i7 machine. It might also need optimization.
Here comes the first tricky part that I couldn’t sort out in an elegant way neither in Grasshopper nor in Rhino. I want a smooth transition between the wall and the ceiling, so that the voronoi tessellation doesn’t get interrupted. If I was to do it in Rhino I’d make a curve with a filleted edge which I’d then revolve/sweep along a rail.
Pattern.gh:
Second thing is – I’ve defined a shape which I want to rotate at a certain degree as it goes higher, however, I don’t have the knowledge to make this happen automatically and just copy the script over and over again. Is there a chance to somehow “loop” the code and parametrically define the degree of rotation and amount of units in the loop?
Next thing is I want to somehow be able to rotate each “6-storey-building” dependently on its surrounding buildings, so that their “terraces” never overlap. I’m using quotes, since they’re still some silly shapes that have nothing to do with buildings and terraces. The principle has to be something like gear wheels or the so-called rack wheels . There has to be some pace which I could set parametrically, but I’m still unsure how to do that in Grasshopper.
The pre-last thing is that I want to control the height of each “building” based on let’s say a topography. I presume this could be done somehow with height maps or some gradient mapper connected to curvature analysis. Not really sure how something like this would work, but I’ve seen such codes that control height depending on a variable.
The last one is more or less similar to the previous. I want to be able to “dissolve” the pattern that I initially created and make it irregular. I suppose this could be done with attractor curve, but again this is just a guess. Please note that this is a top view and the shapes on the upper-left corner have got more "wings" which means there is more floors in the according building. Let's say the buildings in the upper-left corner are 6-7 floors high, in the middle are 4-5 and to the right they're only 3 floors high.
Sorry for that many questions in a single thread. Please let me know if I have to split them in separate threads. All this information is needed for learning purposes. I’m now preparing myself for my bachelor thesis and try as much things as I could, so that I’ll be ready for the final stage of my bachelor’s degree.
Many thanks in advance! Cheers!…