ry close to the screen (the model unit equivalent of a pixel deep). I am using the DrawForeground override to generate these objects...everything is fine, except that we'd also really like the users to be able to output high quality images directly from the viewport. Using the ViewPortCapture (either to file or clipboard) with higher scales can create some excellent images...but here's where we run into trouble.
The geometry that is created close to the screen through the Display Conduit tiles along with the resolution in the output image...so even though the rest of the model geometry scales up, the HUD geometry stays the same resolution but gets repeated in a grid (2x2 at 2 scale, 3x3 at 3 scale, etc.). What is interesting is any geometry created in the normal model space (say, a circle at the WorldXY) gets rendered correctly. I have also tried using the CalculateBoundingBox override, using bounding boxes for the objects drawn, but it doesn't seem to help.
I have picked up on a discussion over at the McNeel forums, but haven't gotten any guidance over there, and was curious if anyone here had any pointers.
thanks!…
Added by David Stasiuk at 3:31pm on November 24, 2015
hen 6 triangles meet at a vertex. You can create double curvature by having a valence 5 (positive curvature, like a sphere), or 7 (negative curvature "saddle shape").
Such meshes were studied by Alain Lobel in the 1980's (maybe even before that). There is a paper mentioning them in the proceedings of AAG2014. Repetition of panels is also studied here, with the use of clustering, which can be very efficient.
You can look at the SMART Clustering plug-in developped by Buro Happold, I've never tried it, but it looks interesting and maybe suited for what you're aiming for.
Best,
Romain
P.S: If you are interested in repetition, you can also look at repetition of members (e.g. constant length) or repetition of nodes. Most of the research deals with repetition of panels, but repetition of nodes could be also interesting because they are much more difficult to fabricate than panels. Two references about node repetition: one for a specific family of shapes with high node congruence , and the other on the use of hyperbolic geometry for 3-valent meshes.
…
Added by Romain Mesnil at 6:35am on October 27, 2016
e this week - you will be presenting the top 2 in class
Links:
Rendering resources
http://www.archdaily.com/777432/6-websites-for-ethnically-diverse-render-people
https://www.pinterest.com/jiwaskiw/section-perspectives/
https://www.youtube.com/channel/UC_eRv_Rzr671BaKFtpYSi4A
https://visualizingarchitecture.com/
3D printed houses back in the news
http://archinect.com/news/article/149995791/in-24-hours-get-a-3d-printed-house-that-will-last-175-years
Filament Pavilion
http://www.archdaily.com/806242/elytra-filament-pavilion-icd-itke-university-of-stuttgart…
o use these extensions in order to integrate numerous tools for analysis and simulation in the architectural process.
This course aims to develop a link between the virtual and the real context model through structural or environmental simulations, using other software or plug-ins dedicated. Through this link the virtual model receives physical properties that can further modify and adapt the initial model. This creates feedback loops that can optimize the design to provide an object responsive to environmental conditions.
Curriculum
Mesh subdivision with Weaverbird, continuous surfaces without NURBS
Genetic optimization with Galapagos, optimal search
Physical environment feedback with Diva and Geco, solar and day lighting analysis
Adding physical properties with Kangaroo Physics, interactive form-finding
Linking the parametric model with structural analysis using Karamba, structural performance simulation
Extracting data with Firefly and Kinect, 3D scanning and human movement tracking
Exchange of information between Grasshopper and other applications with Ghowl links to internet feeds or Excel files.
Schedule:
Module 04 / Grasshopper intermediate & advanced (24 h)
11 Oct – 26 Oct 2013
Fri:
Sat:
16-20
10-14
Language: Romanian
Organized by:
OAR Bucureşti – Romanian Order of Architects, Bucharest Branch
Trainers:
Ionuț Anton, idz arhitectura (ART-Authorised Rhino Trainer)
Daniela Tănase, idz arhitectura (ART-Authorised Rhino Trainer)
https://www.facebook.com/cursurigrasshopperrhinoceros
http://www.oar-bucuresti.ro/anunturi/2013/02/27/d/…
Added by Dana Tanase at 2:49am on September 5, 2013
2013 | Sábados 19 y 26 de octubre. 15 Hrs.
Horario: 9:00 - 18:00 Hrs.
Instructores por BIO|Architecture Studio: A design & building laboratory.
Palabras clave:
Diseño Computacional, Scripting, Rhinoceros 5.0 + Grasshopper, Parametrización, Análisis, Fabricación Digital, 3D print.
Para mayor información:
MArch. Kathrin Schröter. E-mail: kschroter@itesm.mx
Dirección de Arquitectura. Oficinas de Aulas 1, segundo piso.
Carretera Lago de Guadalupe Km.3.5 Col. Margarita Maza de Juarez, Atizapan de Zaragoza. | 5864 55 55 Ext.5750.…
sinergetici associati alla compresenza simultanea di differenti strumenti di analisi e digital design all'interno di un processo di progettazione in svolgimento. I partecipanti utilizzeranno Grasshopper (modellatore parametrico per Rhino): l'uso di questo editor grafico di algoritmi si integra alla perfezione con gli strumenti di modellazione di Rhinoceros 3D espandendo le possibilità di corstruire modelli parametrici altamente complessi. Per generare una complessità simile saranno utilizzati collegamenti live ai diversi programmi elencati di seguito: . Autodesk Ecotect Analysis via GECO . FEA software GSA via SSI Durante questi intensi 3 giorni, i partecipanti impareranno il workflow dei plug-ins con l'aiuto di esempi esplorando una panoramica dei differenti software, le possibilità di testare le performances di un progetto o l'uso di strumenti addizionali non legati ad un singolo sistema (es. accentuazione, formazione, reazione parametrica) [english text] The focus of the workshop is to integrate and correlate the synergistic effect associated with simultaneous presence of different digital design- and analysis tools in an ongoing design process. The main attention is set on easy to handle interface , which should be used at a early stage of conceptual design to respond to external and internal influences in a intelligent and sustainable way. Participants will use the software Grasshopper as a parametric modeling plug-in for Rhino. The usage of this graphical algorithm editor tightly integrated with Rhino's 3-D modeling tools open up the possibility to construct highly parametrical complex models. To generate this complexity we will use live linkages to several programs listed below: . Autodesk Ecotect Analysis via GECO . FEA software GSA via SSI In this 3 intense days, the participants should learn the workflow of the plug-ins with the help of examples and get an overview of the different software's, there possibilities for evaluating the performance of a design or the usage of additional tools to be not chained to a single system . (e.g. parametrical accentuation, parametrical formation, parametrical reaction) [.] Dettagli : Istruttori: Thomas Grabner & Ursula Frick from [uto]. lingua del corso: inglese (saranno disponibili tutor di supporto ma è richiesta una conoscenza di base della lingua unglese).
Quote d'iscrizione (min 12 max 20 posti): educational* : € 280.00 + iva professional: € 450.00 + iva * studenti, docenti, ricercatori, dottorandi e laureati fino a un anno dalla data di laurea OFFERTA EARLY BIRD SPECIAL: le prime 5 domande di iscrizione pervenute entro il 31 Dicembre 2011 avranno diritto ad una quota di iscrizione scontata del 20% Quote d'iscrizione E.B. SPECIAL: E.B. SPECIAL educational* : € 224.00+ iva E.B. SPECIAL professional: € 360.00+ iva. ulteriori info, dettagli e iscrizioni: http://www.co-de-it.com/wordpress/nexus-advanced-grasshopper-workshop-with-uto.html…
learn, or as an alternative to your morning coffee + cross-word puzzle.
Rules:
Contributions can be posted by anyone. Either selected from a previously posted problem from the general discussion (please acknowledge original poster), a selection from one of the many grasshopper+ primers (please include credits) something you think is fun, curious about, or even something you want to learn.
We should keep the entries dated so we can track them. One new problem per day (so if you see one posted for today- there is always tomorrow).
User(you) adds post titled: date-name of problem.
Solutions will be posted with breakdowns, either in logic procedure, etc. And in the spirit of the NY Times, an explained solution will be posted as well within the following days.
Remember there are multiple ways to solve a problem- however the “official” post should include a “clean and elegant” (or simplest) solution. So that all learning can develop better scripting habits.
Rules: an explanation.
1- Submission categories are as follows:
Native
Plug In
Scripted
Each category should have a difficulty rating - 1 to 5 perhaps.
They should be included in title for clarity-
Date_NameOfProblem_Native Plugin or Script_Difficulty
2. Since we are an international community, and this is an open group- a C+G day starts at the time of 10 am local poster’s time.
3.Anyone can set the next question. However the same person cannot set two days in a row. If a question is up- then next person needs to wait until the following day to post. You can PM Danny Boyes or Myself (Monique) if you are having posting issues- (i.e.: how to post, or have been trying to post, but keep missing the opportunity)
4. Answers are presented in the typical grasshopper community response way: in the form of examples, and/or screen shots. For screen shots: make sure the nodes are legible, if you do a function inside a node make sure we can see what you did. Verbal explanation. Maybe picture of result.
The difference between this group and the general discussion is that the poster should know how to solve the problem, be able to post a solution up themselves.
5. The poster judges the answer. They should offer a sample solution as well when they declare the winner.
However overall quality control may be checked by moderators of the group.
6. Still thinking about this one. …
tly light vehicles such as bicycles and variations thereof. Although frame design is mostly of a structural nature, there are a number of elements that interact mechanically. Also, as you may be aware, bicycle and high grade tubing is not of constant section so shelling method in FEA is out of the question, but even so, because the joint needs to be modeled very accurately, that means different geometry and properties for welded area, heat affected area and base material; like so a simpler FEA package may not suffice.
I don't know karamba extensively, rather superficially, actually, but I'm under the impression it mostly deals with beam analysis. Pls correct me if I am under the wrong impression. I must say it would be very nice to have a complete FEA package inside GH really!!
Typical workflow for me would be to model everything in Solidworks, and then export to Ansys Mechanical. Although Ansys needs to read every input and naturally remesh back again, integration within Solidworks, Catia, Inventor, Creo, Solidthinking... and the sort, works reasonably well.
Now, I don't remember Ansys having a Rhinoceros plugin so that you could bridge the 2 together, but maybe I should go check again.
3) Great work with that fractal tree. It's nice to know it is a possibility at least. I have tried Apophysis and others, but to my knowledge there's not an application that could deliver 3D fractal designs in a way that you could further manipulate with conventional modelling techniques, maybe apply textures and render, or export to CAM, 3D printing... etc.
P.S.: I have tried all the apps mentioned above and then some more. All of them have serious limitations when it comes to parametric design. For complex models they crash plenty upon rebuilding... a number of time consuming errors appear, and general work flow isn't very efficient for purely parametric work. Speaking for myself, I'd rather spend the time on a definition that enables me to have full control and then generate a new result within seconds, than model everything very quickly and then taking a long time with each new result.
(Thanks for the replies and sorry for the long text, you asked to elaborate).…
printers.
How I want to communicate this: The depth of transparent cubes is relative to the brightness of a picture (low depth = bright, high depth = dark). Then I assign each cube as red or blue depending on the RGB values of the cube column's corresponding pixel - this is where I'm stuck.
What I've done: I have one image sampler containing a greyscale version of my image which is outputting the brightness measurements. This made into lines, which are divided to create the points from which the cubes are created. (I have had to invert the image in photoshop as brightness gives black a low value when I need a high one, and vice versa)
What I want to do next: In the second image sampler I have an image which has a Red to Blue gradient applied to it. I want to group my cubes into reds and blues depending on the colour values in this image (so they could eventually be saved as a "blue" and "red" stl to be 3D printed).
So columns that correspond to a blue part of the image will contain a completely blue stack of cubes, and the same with red. But where there's a combination of blue and red values I need a combination of blue and red cubes mixed together. I was hoping to do this by turning the RGB values into some kind of ratio that will help assign each cube a group but I'm struggling.
Would love any thoughts on resolving my problem, even if it's only for part of it! This was quite hard to explain so let me know if there's anything that needs clarifying.
Thanks…
ndrea Graziano (Co-de-iT) Arch. Salvo Pappalardo (AION architecture) Arch. Giovanni Basile (Officina Ermocrate)
[.] Descrizione:
Modulo 1 Il workshop è finalizzato a fornire ai partecipanti i fondamenti della modellazione parametrica e generativa attraverso Grasshopper, plug-in di programmazione visuale per Rhinoceros 3D (uno dei più diffusi modellatori NURBS per l‘architettura e il design). Il workshop mira a gestire e sviluppare il rapporto tra informazione e geometria lavorando sui sistemi di involucro in condizioni specifiche. La discretizzazione di superfici (pannellizazione sia Nurbs che Mesh), la modellazione delle geometrie attraverso informazioni (siano esse provenienti da dati di analisi ambientali, da mappe di colore o da database), l’estrazione e la gestione di informazioni richiedono la comprensione delle strutture dei dati al fine di definire un processo che va dalla progettazione alla costruzione. I partecipanti impareranno come costruire e sviluppare strutture di dati parametrici per informare geometrie ‘data-driven’ e come estrarre le informazioni rilevanti da tali modelli per il processo di costruzione.
Modulo 2 Il workshop, volto a promuovere le nuove tecnologie digitali di supporto alla progettazione e alla fabbricazione, fornirà ai partecipanti, utilizzando Grasshopper, gli strumenti per la preparazione dei modelli 3D di elementi modulari decorativi "bricks & tiles" in argilla la cui successiva prototipazione avverrà tramite fresatura dello stampo con pantografo CNC a 3 assi. Il workshop darà quindi ai partecipanti i fondamenti per l’utilizzo di tale strumento di fabbricazione digitale e si concluderà con la fabbricazione di un proprio modello realizzato durante il corso.
[more info]
[Press Kit]…