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, animating subsequent per deviation step frames.
This definition calculates best fitting plane deviations. The number of manual set parameters has been minimized to two the facade per World UCS axis selection and the search width. This defines a box, which is used to crop protruding architectural details, which do not contribute to the analysis, but also ensures that large deformations are included in the calculation.
For the automation of the vertical and horizontal sections creation, the analyzed cloud is clustered, according to user defined number of 2d grid cells. The deviations corresponding to each cell are averaged in mean and median mode.
The process is displayed mostly in real time, with some speed up in some parts. Too long calculations have been omitted during video edit. The setup is responsive and benchmarks show that changing between dense point cloud data sets and facades is pretty quick (6.5-7.5M points, 25-45 deviation steps, 44x22 clusters), updates are calculated in acceptable timings (3-6 minutes).
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=…
giornata inaugurale sarà dedicata alla free-lecture introduttiva finalizzata alla realizzazione di un modello d'architettura complesso attraverso l'utilizzo di comandi e tecniche avanzate di rappresentazione con Grasshopper (plug-in parametrica di Rhinoceros) e 3dsMax. Sarà illustrato inoltre il potenziale di V-ray per 3dsMax realizzando un rendering concettuale. Durante il mini-corso dell' openDAY verranno mostrate le caratteristiche e le potenzialità degli strumenti per far luce sui nuovi valori assunti dalla modellazione 3D. La modellazione 3D sta interessando un pubblico sempre più vasto inserendosi in una nuova fase di ampia disponibilità per conoscenze, software, hardware di prototipazione e modelli. Pur mantenendo tutti i suoi valori già noti la questione si è talmente ampliata fino ad interessare norme giuridiche (diritti sui modelli ,concorrenza con offerte di servizi apparentemente simili, informazioni deformate e onfusione nei media) Makers University[http://www.makersuniversity.com], in collaborazione con parametricart, vi propone un punto di vista ampio e sintetico su queste tematiche.
Al termine della free-lecture, sarà illustrata l'offerta formativa [CLICCA QUI] di parametricart riferita ai corsi che si terranno nei mesi di Gennaio e Febbraio 2013 inseriti all'interno della più ampia programmazione della Makers University. SONO PREVISTE TARIFFE PROMOZIONALI PER COLORO CHE SI ISCRIVERANNO AI CORSI durante l'OpenDAY.
La lezione e la presentazione si terranno nel nuovo spazio co-working il PEDONE.
PROGRAMMAZIONE
- I temi della Makers University [Leo Sorge];
- Modellazione della parametricTower (concept di architettura complessa) utilizzando Grasshopper, applicativo per la modellazione parametrica [VIDEO] [Michele Calvano];
- Modellazione di una copertura reticolare 3D a completamento della parametricTower con 3dsMax utilizzando tecniche di modellazione mesh complesse [Wissam Wahbeh];
- Rendering con V-ray per 3dsMax illustrando la nuova interfaccia nodale [Wissam Wahbeh].
- Question Time per chiarimenti sugli argomenti illustrati.
COME
L'openDAY sarà aperto a tutti gli interessati,completamente gratuito e sarà replicato in tre sessioni di uguali contenuti organizzate nei seguenti orari:
Sessione [1] 11,30 - 13,30
Sessione [2] 15,30 - 17,30
Sessione [3] 17,30 - 19,30
Per necessità di organizzazione è importante la prenotazione all'evento utilizzando il form in fondo alla pagina specificando nella stringa apposita, il nome dell'evento e la sessione (es. open day sessione 1) oltre agli altri dati richiesti.…
ial-by-nao-box-morphing/), but there are several reasons as to why it wasn't suitable for what I'm trying to do;
1. I'm interested in using a 2D pattern rather than a 3D form, which will then be repeated within a Paneling point grid which is assigned to a surface. The repeated patterns are then pulled onto the surface, which are then used to trim the surface.
2. The surface I'm using has high curvature, and using box morphing intersects the surface, so it doesn't conform to the surface as closely as I'd like it to unless the number of repeats along U and V are increased.
3. The surface I'd like to use has various trimmed regions on it. Paneling Tools is great for me, because the 2D pattern is repeated on a Surface Domain point grid, so it is initially repeated over the the trimmed regions, but once since the Pull setting is used, only the repeated pattern curves that lie over the kept surface remain (see Paneling tools jpeg).
The surface I've used in the images isn't the surface I need to use, but hopefully it shows what I'm trying to do. Also, I've managed to get the patterning that I need on the paneling tool example, but the reason why I want to use Grasshopper is that it allows me to scale up/down the UV ratio of the paneling points by using a slider tool, so the user can change the pattern density. The only trouble with this is that I can't bake the points out of Grasshopper into Rhino so I can use paneling tools.
Also...I'd quite like to know how the VB module works, because I'm curious, and I'd like to learn more!
Sorry if this is a bit wordy, but I can't think of a better way of explaining what I need.
Cheers, Abs…
up before you can produce a nice render. If you are using vray for Rhino you need to first learn how to set up (as an architect) a nice solar daylight system with environment, is actually very easy. (1 - set up sun lighting, 2 - set up environment, 3 - choose correct settings, such as activating indirect illumination)
However, since sketchup is the perfect draft tool for architectural design, it happens to have an environment with daylight defined already when you open an empty file. Vray for sketchup knows how to use all these settings so the only thing you need to do is to hit render. Apart from that you need to learn some simple material settings, which you find here: http://www.vray.com/vray_for_sketchup/manual/, the same manual for rhino here: http://www.vray.com/vray_for_rhino/manual/
The advantage of using vray for sketchup rather than for rhino (although if you can handle vray for one program its exactly the same for the other), is that you can easily import models from 3d warehouse. Sketchup is an excellent render set-up platform, except its only 32-bit so a to complex scene will simply not render. Rhino 64-bit will handle this better.
Conclusion, learn vray, whatever you learn can be applied to sketchup, rhino and 3ds max. Sketchup is probably a tool you already use and vray for sketchup will render with correct settings by default. Later when you take it to the next step you can go one and learn vray 2.0 for 3dsmax.
Personally I like using Luxology render engine that comes with Microstation, simply because I handle it better and Microstation is the best tool for architects in my opinion. However Vray is similar but more powerful.…
Added by Martin Hedin at 4:11pm on October 21, 2011
something in 3d, explode it to single surfaces, reference it to GH in proper order -manually- then unfold it with gh).
To make it really elegant you could try to make some "topology language" - have you seen this talk by Robert Lang http://www.ted.com/talks/lang/en/robert_lang_folds_way_new_origami.... ?
You can always make only few parametric types of structures - like leg, hand etc. (this is much easier than Mr.Lang's ) which can change its sizes, but topology stays the same.
Beside - Your sandwich looks really good, i played something similiar before.... have you tried thin PE (polyethylene) sheets ? Its similiar to PP (polypropylene) but a little bit softer. It is (PP) commonly used as tic tac box cap ( http://www.absolutelynarcissism.co/wp-content/uploads/2011/09/Tic-T... ) and some say that it can fold/unfold about 1000000 times. It would really simplify the whole production (just one cnc router needed to obtain full structure). Of course bending it will require prefabrication to look like e.g. http://www.grasshopper3d.com/video/the-swarm-2012 by Mr. Wieland Schmidt.
To clear things up :
1. It certainly can be done with rhino/gh
2. You should write some more on how should it all work (what you provide as geometry)
3. You should also provide some more info how 2d drawing looks now.
EDIT : I forgot about kinematics - use kangaroo. There are forces now like bending resistance etc.
…
nd and downloading definitions to learn from them, but still don't get it right.
So my problem is:
1.- I want to achieve a kagome, hexagonal gridshell that keeps the bamboo pieces like straight geodesic lines.
2.- I also would like to keep the curved bamboo as splines, so I imagine this will give the easiest method for bending the bamboo at the real scale. As Mårten Nettelbladt in his blog http://thegeometryofbending.blogspot.jp/ mentions, the best way will be to keep the geometry where all the pieces have a spline curvature ( or as B.K.P. Horn calls it “The curve of last energy”) In order to achieve splines do I need to make the grid a Dynamic relaxation “Kangaroo”? will this help?
3.- I would also like to simulate the bending of the elements from a 2D to a 3D, but maybe this can be a next step on the definition…
Some of the common problems that I notice in the definitions found is that when people do weaving, the lines don't bend flat to the geometry but rather they twist so when you look close the cross of pieces intersect, which is impossible in real life…
As you can see there are a number od issues here, I apologize to put them all together, maybe it makes this confusing but I think is better to look at the whole picture. I have been reading a lot but I have no idea how to start.
The more I read the more interesting the subject becomes but the more confused I become. Is there some kind soul that could give me a hand? Any help will be really appreciated.
Thanks a lot!
Miguel…
o fix before it becomes very usable, but I'm posting the file here in case anyone wants to try it out.
It is a few simple scripts which record point locations from a first Kangaroo simulation whenever the capture button is pressed, and then when you playback the animation it interpolates between this captured sequence of points, pulling a second Kangaroo simulation to these targets. You can control the playback with a slider or automatically with a timer.
This should work with other Kangaroo2 setups, but here demonstrated with a human figure modelled as a collection of rigid bodies. At the knees and elbows the rigid bodies share 2 points to give a hinge joint, while for shoulders, neck, hips, ankles, wrists and torso they share only single points, giving a basic ball joint.
This is also the first time I've posted this model, and I'm also including the setup without the animation script. I know there are numerous issues with this poseable figure - dragging joints sometimes moves parts of the model you don't want to, and joints have unrealistic ranges of motion. I made a start at trying to limit some of these - such as ClampLength goals to stop the torso bending too much, but more could be done. There is also an issue with the rigid bodies (which track orientations with a frame of 3 points) that if you grab the frame itself, the simulation can break. I'm currently rethinking this whole approach.
I should also say that although I have heavily modified this human model to make it work for this setup, I did start from a mesh downloaded from some free 3d model collection site, but unfortunately I do not know the name of the original artist. If someone recognises it I would like to add appropriate credits.…
r and I am probably not doing this as efficiently as an expert would....this being said, your guidance in the past few discussions have really helped me improve my game!
Secondly, I can tell you that this is a smaller piece to a much larger agenda. I have been working on a project for the past few months which attempts to take thousands of nonstandard wood components (scanned with a terrestrial scanner) and use them within an architectural assembly. I start with a point cloud of a 3D scanned tree (a tree made of wood not a data tree), create a mesh from that point cloud, then extract the center-lines of each unique branch. I have been manipulating and reorienting the meshes by using the extracted center-lines as a guide...which is why I have been creating lists which usually contain one mesh and a few polylines. The first polyline of each data tree branch is the large "trunk" of that branch cluster and the other polylines are the smaller "twigs".
The "trunks" I refer to here are actually called scaffold branches in dendrology and the "twigs" are called lateral branches. Scaffold branches work well in compression and lateral branches work well in tension which has informed the upside-down orientation of the branches. I have used karamba to run some structural studies with these branches and create an assembly logic.
Ultimately, The end goal with this is to use galapagos to maximize the number of connections between clusters. Each cluster is allowed to rotate along a vertical axis as well as move in a limited range both horizontally and vertically. "Twigs" will only be allowed to connect to "Trunks".
Because I am dealing an assembly of over 500 clusters, I have tried to limit the amount of clusters galapagos will need to search for. I said in the previous post I need to search for the "two closest clusters", but in reality I will raise that number to around 10. The plane intersection currently used to search for neighboring clusters is not exactly arbitrary...this is the roof of my assembly which is flat and at a height of 16ft.
I apologize for my unclear question--I was having a real difficulty even writing it! I think I know just enough to make things confusing and not enough to ask the write questions.
Regarding your "big question" of "what is the data/tree" I seek:
In order for me to create a fitness for galapagos (I think that) I will need to have a list of distances from each twig to the trunks of neighboring clusters. This distance will then be minimized within a galapagos fitness as the clusters readjust position.
I will upload a slightly larger portion of the script first thing tomorrow to clarify my intent!
Thank you again for wrestling through this! …
Added by Ethan Davis at 9:48pm on November 14, 2017
utors
U P I A studios Mostafa R. A. Khalifa, ArchitectPhD, Architecture ITALY
Lecturer,
MSA University
Head of Architecture and Parametric Design
U P I A studios
Egypt
deadline registration Jan, 30 , 2013
http://grasshopperworkshopcairo.blogspot.it/ introduction: This workshop will introduce basic and advanced notions of Grasshopper and the methodology of parametric design and algorithmic modeling and its usage in Architecture, design, landscape, and urban scale. It is intended for professionals and students with a minimum experience in 3D Modeling.
…