rested in specializing in the field of Computational design.
The workshop will help understand how Grasshopper facilitates during the design process allowing one to Generate, Automate and Manipulate data.
To Register:
http://goo.gl/forms/gvUTyZihVK
Workshop Structure:
Day 01: 16 August 2018
Introduction to Computational Processes in Architecture
Understanding Grasshopper and its relation to Rhino3D
Working with fields and Grids (Supplementary readings for Architectural theory)
Spatial Concepts using Data
Day 02: 17 August 2018
Understanding Data in Grasshopper - LISTS
Managing Data in Grasshopper (Supplementary reading)
Experimentation on Massing and Architectural Forms
Day 03: 18 August 2018
Understanding Data in Grasshopper – Trees
Surface Logics (Supplementary reading)
Design Exercise and Prototyping
Day 04: 20 August 2018
Architectural Skins
Day 05: 21 August 2018
MasterClass Project
Introduction to various types of Digital Fabrications
Prototyping of works during the Workshops
Basic knowledge of Rhino 5 is required to be able to take this training.
CERTIFICATION: All participants will receive a Workshop certificate from Authorized Rhino Trainer.
3D Printing: Prototyping of works during the Workshops
Workshop Tutor:
Kavitha M, an Architect and Computational Designer, 3D Printing Specialist is also the co-founder of INTO Design Research, will head the Computational Process in Architecture using Grasshopper workshop. Graduated from Stadelschule Architecture class with Masters in Advanced Architecture Design, has been researching on teaching methodologies on digital tools and their influence on Design thinking.…
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…
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=…
erona, nei giorni 01,02 e 03 dicembre 2016.
Il comfort visivo e la gestione dell’illuminazione naturale in relazione al risparmio energetico diventano sempre più rilevanti per una progettazione innovativa degli edifici. Ad esempio, il nuovo protocollo LEED 4 riconosce crediti per le simulazioni di daylighting e conferma l’importanza degli aspetti progettuali per “collegare gli occupanti con lo spazio esterno, rinforzare i ritmi circadiani, ridurre i consumi di energia elettrica per l’illuminazione artificiale con l’introduzione della luce naturale negli spazi”. Senza strumenti software per la simulazione della luce non è possibile ottenere risultati di qualità. Radiance è un software validato, utilizzato sia a livello di ricerca che dai progettisti ed è tra i più accurati per la simulazione professionale della luce naturale e artificiale. Non ha limiti di complessità geometrica ed è adatto a essere integrato in altri software di calcolo e interfacce grafiche. Queste ultime facilitano le procedure di programmazione. Le principali e più versatili saranno oggetto del corso (DIVA4Rhino e Ladybug+ Honeybee, plug-in per Grasshopper e Rhinoceros 3D).
Il corso è rivolto a progettisti e ricercatori che vogliano acquisire strumenti pratici per la simulazione con Radiance al fine di mettere a punto e verificare le soluzioni più adatte alle proprie esigenze. Sono previste lezioni di teoria e pratica con esempi ed esercitazioni volte a coprire in modo dimostrativo ed interattivo i concetti trattati.
Le domande di iscrizione devono essere presentate entro il 16 novembre 2016.
La brochure con i contenuti del corso e tutte le informazioni sono disponibili su questo link
Il corso è sponsorizzato da Glas Müller.…
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.
…
other kind of planes because I need to deal with Display Pipline .
There's a few threads about similar problem( i'm posting them here as a reference)
1. Viewport rectangle
2. TextTag parallel to Viewport
3. Horster method (with timer)
4. Another horster method to get On screen display (also with timer)
5. Discussion how to send Rhino Viewport Cplane to GH
There is a lot of things possible to do using camera frustum plane such as:
- making custom project layout
- Camera-plane sections
- 3d Isovist (example of Francois)
- projections on the frustum plane
I need to output geometry to Grasshopper in order to use a Frustum Plane for dynamic operations like for example: On Screen Display of Text Tags with sections and other views.
…
3 arms and 6 legs (PS: Remember: in real-life our fee is proportional to the budget > thus > like Godzilla > the bigger the better).
In the mean time (auto detection of struts < min Allowed == true) get the gist of the whole "torque" issue, the other gist not to mention the other-other gist.
Of course you can opt for NOT making the cables (green) that stabilize the "extension" part of a given tensegrity strut ... yielding the Mother in Law syndrome (fat and ugly):
But ... hmm ... well ... are you really the chosen one? Here's your chance for the ticket to Paradise (full Lord's assistance, that is). Identify this engine, name the designer and the related immortal racer (when men were men).
Moral: Heaven can wait. …
ese explanations help (we will also look at your file) asap.
About your question regarding the Tutte graph drawing algorithm (also known as topological embedding):
The Tutte algorithm can be viewed as a special case of Spectral Graph Drawing, which is a mathematical solution for topological embedding formulated as an optimization problem. The formulation of the topological embedding (e.g. as in Tutte algorithm) is in fact quite similar to the so-called force-directed drawing that is often solved by heuristic methods like the one we have made for the SYNTACTIC plugin. You can read more about Force-Directed Graph Drawing (a.k.a. coin-graph drawing and kissing disks drawing) and Spectral Graph Drawing and Spectral Graph Theory in my dissertation.
The functionality of the Tutte algorithm is only guaranteed for graphs that are 3-connected, i.e. graphs with more than 3 vertices which cannot be torn apart unless at least two vertices are removed.
https://en.wikipedia.org/wiki/K-vertex-connected_graph
Speaking of the conditions for the Tutte algorithm to work properly: Practically, this implies, for instance, that there should not be rooms connected only to one other room.
Anyhow, long story short, we have decided to continue with Spectral Graph Drawing and 3D force-directed graph drawing. These algorithms are ready and with a couple of adjustments for maximum speed and stability we will release them shortly. Some conditions for these algorithms are easier to ensure, but in general if a node(room) is connected to only one space or the graph is not well connected one cannot expect a good graph drawing from neither of these methods. The other issue that is also common is that the force directed graph drawing will not work if one forces a big bubble to be squeezed in the middle of smaller bubbles. Stay tuned. …
way everything is consolidated and people can share their thoughts.
1. Cluster rollover tips
Id like to be able to create rollover help text for each cluster input. This could be a right click thing once the cluster is created or something specified before creating the cluster (a string input for the cluster input arrows?)
2. Disconnect all outgoing
I'd like to be able to right click on an output of any component and disconnect all wires coming out of it.
3. Disconnect all selected
It would be cool if you could disconnect all incoming or outgoing wires from all currently selected components (instead of just one at a time).
4. List item dynamic slider
There has been a lot of discussion about dynamic range sliders and the issues that they would cause. Id like one specifically for list item selection. This would be an integer slider that would have a range of 0 to the list length-1. If the range remaps and the previous value is no longer available, I think it's best to have the current value stay as close to the previous value as possible.
5. Cluster slider/toggle inputs
I think it could be valuable to cluster a series of variable inputs (like sliders or toggles) to make a sort of options cluster. In this case you could just have a list of sliders and toggles each connected directly to a cluster output arrow, select all and create your cluster. This would be great with the value list component as well.
6. Have a component that could output the x and y location of actual components on the canvas relative to the top left corner... Not sure exactly what you could do with this but I think someone could do something interesting with it.
7. 3d MD slider. I see the option is greyed out and don't see a way to activate it... Still under development? Seems like it could be just like the color picker. Would be cool.
That's all I can think of right now. I'm sure there will be more to come in the future.
Feel free to comment.
-Brian…
Added by Brian Harms at 2:22am on December 15, 2011