is only under gravitational load. The grid shell analysis works on its own without the fabric shell applied on it - only works with barely any loads applied on the assembly.
1. I am running the grid shell as shell element in Karamba as well as the 'skin'. What I would like to test is the impact of the loads from 'skin' and its own weight on the structural behaviour of assembly. Does Karamba understand shell on shell transfer of loads?
2. The material properties I assigned for the fabric are the following:
E= 40 KN/cm^2
G = 0.7 KN/cm^2
gamma = 13 kN/m^3
Fy (yield strength) = 6 kN/cm^2
The material widget turns orange with the following warning: "1. Material #0 : For isotropic materials G must be larger than E/3 and smaller than E/2. If this condition is not fulfilled the material behaves very strange. It may lead to an unstable structure."I'm not sure if I should push up the shear value as I suspect that fabric does not experience that much shear anyways.
Thanks,
-Y…
ent GH file.
This is quite irritating, as some of the scribbles are annotation of the workflow.
May I ask if there is a solution for this problem?
Thanks!
E,g:
1. this is the overall image of all the components on canvas:
2. this is the scribble object shown in the area indicated by the arrow shown above
3. However, after I copy and past all the selected components on the canvas to a new GH file, the scribble object is gone ...
…
Added by Grasshope at 1:18am on September 21, 2016
ave the bytes available, they also need to be adjacent. All 4 frikkin trillion of them (assuming you need a million 1000x1000 pixel tiles). That's just not going to happen.
It could be that Photoshop has very clever memory management that allows it to store image data in non-consecutive chunks, but .NET does not allow this.
In fact this can be a real problem with much smaller images as well. In 32-bit Windows you're allowed 2GB of memory per application (sometimes 3). If Rhino+Grasshopper are already using up 1.5GB it's not like you can fit in an extra 0.5GB image before running into problems. Memory is almost never used in a consecutive fashion.
Rhino uses a clever memory manager (not the default Windows one) that results in less memory fragmentation and Grasshopper uses the .NET memory allocator and garbage collector which is capable of defragmenting memory usage. But even with these two optimizations memory fragmentation will occur (and the longer Rhino runs the worse it will get) making it less and less likely that you'll be able to find large consecutive areas of free memory.
The Grasshopper hi-res image exporter creates image tiles of 1000x1000 pixels and saves these files immediately. So it never requires more than 4MB while running. Once it's done making the images, it will start a different application that will stitch these images together. That's what the GrasshopperImageStitcher.exe in your screenshot is. Since this is a new app, it has 2GB of absolutely pristine memory to play with so it's a lot longer before it runs into problems. And when it does run into memory problems it won't bring down Rhino with it.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
t ... have a close look on these weird "slots" in the base mount plate - allow the struts to "follow" some base "auto" arrangement (up to a point).
2. After various ... er ... hmm... "communications" with a variety of apps.(some of them are not for public eyes) ...here's a concept demo about what could be done and fool the academics (that's the bit that I like the most)
In plain English (work in GH):
1. Create some wires that represent the struts and PAY attention on their limits of adjustability.
2. Create a nurbs curve through the points indicated with "balls" in the demo. Patch the nurbs.
3. Trim the nurbs surface with some "indicative" profiles OR use Kangaroo by applying a minimum possible relax state (if the latter add the rhomboid cables as well - they deform by pulling the membrane downwards).
4. Optionally put the real things in place (quite GPU taxing that one - do some Viz control).
best, Peter
…
r.
Jon has already done some very interesting stuff with regard decomposing matters using IFC schema (I'm not a strong admirer of any schema policy mind - for a variety of reasons).
Now the chaotic case:
1. This is deliberately fuzzy, faulty and chaotic in order to indicate the need (at least IMHO) for a next step with regard handling and visualizing (on a per individual data item basis, not on a per branch basis) data trees.
2. Why this Tree Manager future thing could boost GH up to an unseen level? Exploit the PDF attached - use Saved views and/or the Model Tree "decomposer" (file is greatly reduced in detail - only 1 out of 5 floors shown, no envelope stuff, stripped out of everything actually etc etc etc). Among a variety of things observe that there's transformations that are "selectively" applied whilst various components remain intact (in other words: invite existed "static" objects into the smart chaos) - this means that we need a far better control VS the series (of various type of data) that outline the solution of similar things.
3. What could/should do such a "visual" Tree Manager? Could he function within the existed "one Canvas for all things" environment? Do we need N "sub-canvas" (kinda the Views in any CAD app these days) to handle and visualize complex tree operations? Do we need control on a per data item basis? Do we need a re-mapper of a totally different kind? Do we need a Bake Manager? Do we need a Scenario (parameter combos stored etc) Manager?
Let's the debate begin
Best, Peter
…
imply lets you communicate with the chip in real time with other peripherals. In my case, I'm using the Xbox Kinect to read visual movements, assign a point ID to something like the left and right hand, translate its x-coordinate into a number, and have that number move a robotic arm servo. Sorry if this sounds like your upcoming robotic apocalypse.
My problem is that because my hand is always moving, it is continually reading the data in real time and crashing Arduino because it is continually processing the rotational distance (in degrees between 0-179). For example, if my hand was moving from 1 to 50 degrees, it's computing 1, 2, 3, 4, 5, 6, ..etc instead of 1 and 50 as two separate states.
Is there a way to have a component refresh its value in a certain interval? This would mean it could read my hand at different intervals and print a value at timed increments instead of doing it all in real time. A simple practice exercise would be to create a random component and have the component refresh so that every 1 second or so it would produce a different number. The app is essentially refreshing. I thought the Timer component worked, but I misunderstood what it's used for, and I don't think it does what I intend it to do.
I've attached some pictures to show what I'm attempting.
And a file to recreate the problem with a different instance.
Thanks so much for your help! …
diseño, construcción y entendimiento de nuestro entorno.
BIM está poniendo a disposición de los diseñadores y gestores auténticas bases de datos que pueden generarse, conectarse y editarse de forma paramétrica, proporcionando una sólida capa de realidad a los ejercicios de diseño generativo y computación que son objeto de estudio en Algomad, el seminario que busca popularizar la programación y la parametrización en el diseño y en la experiencia de nuestro entorno construido.
Tras un paréntesis en 2015, Algomad vuelve con el objetivo de demostrar cómo una visión computacional del BIM es una oportunidad para mejorar la forma de trabajar de ingenieros, arquitectos, constructoras y operadores de edificios e infraestructuras, tendiendo un puente entre las técnicas de diseño digital más avanzadas y la realidad de la construcción.
Algomad 2016 tendrá lugar en el centro de Madrid, en IE School of Architecture and Design, IE University, los días 3, 4 y 5 de Noviembre de 2016 y comprenderá 4 talleres así como ponencias a cargo de expertos de primer nivel.
Estructura de Algomad 2016
Algomad 2016 se estructura en torno a tres áreas temáticas principales:
BIM, como la metodología total específica para el sector de la construcción.
Computación, englobando las aplicaciones de programación y parametrización al diseño de edificios e infraestructuras.
Realidad, como marco de trabajo, buscando siempre resolver problemas reales a través de los dos puntos anteriores.
Público objetivo
Arquitectos, arquitectos técnicos, ingenieros y en general académicos, estudiantes de últimos cursos y profesionales del mundo inmobiliario y de la construcción que compartan un interés por la digitalización de nuestro sector. Se espera un nivel mínimo en el uso de herramientas BIM y de parametrización. Algomad proporcionará formación adicional y gratuita en las herramientas básicas a emplear en los talleres para asegurar un correcto desempeño.…
y anyway ;))
Since 2014 i begun to get back into the construction biz for some dozen main reasons, one of them being the highly increased availability of this kind of software "power", and robotics.
first project ended by 1stQ 2015 was focused on the development of a parametric block for construction. (almost sure the first parametric product designed in Uruguay, and probably one of the few first of this kind globally...)
Far from being a complicated model. In fact the standard model is extremely simple, key thing is that is fully parametric...
dimensions, materials, textures, colors... and so on
second key thing is that the main common component of the blocks (an EPS core) is robotically machined...
the blocks are the base of a construction system (oriented mainly - though not restricted only - to residential buildings) that
- is based on digital models, tendentially to be used in parametric models of buidings
- lab tested to prove to be 1.5 times as compression resistant than traditional bricks and blocks. (autoportability up to two stories buildings)
- has recently proved (due to size) to be 300% more efficient than the classic and 200% more efficient than steel frame in (our country official figures)
check it out here
--
https://drive.google.com/file/d/0B1TRxxgF_sEnQnZrTkZGbUx3cmM/view
--
- and it's aimed to be mass produced and handled by robots...
this project ended on 1H 2016
and i filed 4 patents in the process.
3 of them of mechanical devices designed as extensions for a cnc machine i own
and the fourth (
the patent related specifically with the blocks ) included a dozen of innovations (believe me...i have almost 15 yrs in the biz, and are coool stuff...)
along the project I've been working with inventor, even knowing in advance it will lack the kind of features I wanted to program many things... (lisp, VB, etc.... all same species of -prehistoric - animals) to leverage the tool to the sky - and far beyond... -
but was an alternative valid by that time because it allows the implementation of some form of parametric models, had a local representative and some supposedly skilled guys in the neibourhood....
but life is hard... and none of the latter two rendered me any significant help
so I had to take the tour myself...
- mind i never regret to do things that others cant -
and finish what i start
this one was a great project for many figures... and ended with more results than the ones commited to accomplish...
... some more history here ....
then because of a customer who brought a ZHA project ! to quote..., I crossed with rhino, and then met GH again to notice to my great joy and pleasure, in what kind of animal it had developed...
since money talks I'm investing hard on getting up to the expectations, and beyond as i usually do...
and thats how we met..
2017-2018 it's the time frame to build two robots. first one is a prototype to handle the k-nano blocks in the production process, delivery AND at the construction site ( a "smart crane" we nicknamed...)
the other one is the first prototype of robot to assist in the fabrication (smart blocker we called it to be creative ! ;))
then by 2018-2019 i'll be making a "kinda contour crafter" machine to complete the pie :) (you'll be interested on this..)
i guess you already know what all this has to do with GH...
i already have all the components i can imagine to do almost all i ever wanted to do in relation to this set of projects
but in almost a single tool !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
i can design, animate, render, optimize, simulate and even robotic simulate..
so, i have to ask...
is there a chance you might be interested in helping us in some projects we are starting on march and june 2017 (8 and no more than 18 months of duration respectively) ?
sent you a friend request, for the case you might be interested to continue by e-mail...
in any case many thanks for your help and inspiration !
best regards !
long happy marriage, and large figures bank account !
…
hinoceros + Grasshopper + Vray los participantes puedan desarrollar mediante un flujo de trabajo digital las técnicas de Diseño Paramétrico, mediante métodos algorítmicos generativos, para su implementación en procesos de diseño y representación de los mismos, a través de:
Técnicas avanzadas de modelación 3d e imágenes foto realistasProliferación en topologías complejas mediante Definiciones visualizados Estrategias de Mapeo y Análisis evolutivos en Tiempo RealVinculaciones entre criterios Predefinidos paramétricamente y Morfologías resultantes
Detalles:
∙ Instructores / Matías Casciotta y Salomón Escobar / Integrantes Ha-11
∙ Todos los niveles de experiencias son bienvenidos
∙ Recursos: Interfaces Rhino + Grasshopper / Manuales PDF / Definiciones GH Preparadas
∙ Los participantes deberán traer su propia laptop con todo el software y actualizaciones (originales o versiones de demostración) previamente instaladas. (Se fijara una fecha unos días antes para revisar que todos los equipos estén en orden y listos para trabajar).
∙ Proceso de Inscripción
Los participantes deberán adjuntar su “mail”, a través de un comentario en esta imagen de Facebook y recibirán: información sobre lugar, fecha, costo de matricula, forma de pago y material de aprendizaje para el correcto desarrollo del workshop
Para mayor info: ha.11.arquitectos@gmail.comhttp://ha11studio.blogspot.com/ en facebookhttp://www.facebook.com/pages/Dise%C3%B1o-param%C3%A9trico-ha11/273506122720586?ref=ts…
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.…