dy stuck.
The basic concept is to create a 3D boundary(a box),
by generating random differnt values(length) and vectors(xyz),
such as (0,0,2), (-3,0,0), (0,1,0), then connect these points in order,
so there will be a snake(polyline) running in the boundary and
keeps growing longer through looping.
However, I can't quite understand how to use hoopsnake to achieve such action.I tried many times but all of them doesn't work.
About the 2 gh files below,
Gourmet Snake 3D.gh is before I use Hoopsnake,I tried to run it without boundary.
Test snake.gh is that I tried to generate a random number for every loop, then save them all and sum them up every loop, so I can check if the result is out of boundary,
if true, then I can mutiply -1 to let it decrease till it's in the boundary.But I can't achieve it through Hoopsnake.
Sorry for the poor english expression,if you understand my problem,any suggestion will be appreciated.
Tien
Gourmet_Snake_3D.gh
test_snake.gh…
ng and algorithmic design for furniture production. Ideally I would like to be able to import a network of curves into this definition to automate the node creation process. Unfortunately as it stand it will only work for one of them.
My question is, how can I present a list of the connection points & vectors from a network of curves for this to work?
Below you can find the definition along with a few pictures of the concept and development. The white parts were modeled in Solidworks and printed on my Ultimaker 2.
If you're interested in following this project I'll be posting regular updates on my twitter: @pencil_stroke
Thanks in advance,
Charles
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Added by Charles Fried at 12:32pm on February 5, 2015
ning the simulation looks great(see figure 1). However, I find some question(see figure 2), the red wire frame on the right should be symmetry like the physical lamp, but it has a extend distance now.
I should like to keep the wire frame structure with same length after simulation.
maybe I miss some setting in Kangaroo, can any one fix it? thanks in advance.
I put this ghx file under the attach.
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n elements in grasshopper.
So, I found myself rather blocked, not being able to do certain operations which I need:
1. I can't close the tubes, leaving the center circle open, when I try to input the cap holes, it takes all the tree and it closes, and I am still confused about how to edit trees and items. It would be rectangular shaped holes, rather small (it is intended for bicycle wheels, thus rather thin and long). I wish to be able to change the amount of these holes, since I am not certain yet.
2.In the same time, I have no idea how I would create a slope joining the 2 vertical boards ( floors).
Here is a small drawing explaining what I am looking to draw
In the same time, is there a way to create a slope, joining the same floors, but build on a different principle.
A slope revolving around the long vertical tubes ( trees). As in the image below
Thank you beforehand for your help, if halfway, you see the there is a faster way, or that would be more of a grasshopper way, of creating or changing an object, please do tell me, it would help me understand GH better.
I wouldn't have asked, if I wasn't this tight in terms of time, and if I had the slighest idea on how to do it. So pls help, and thank you.
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Added by Archiheart at 1:51pm on November 13, 2015
pavilion) and from that i want to fabricate it using some paper or card bored .
for modeling the pavilion i used a simple kangaroo based algorithm to generate the desired form using mesh 3d plane faces . there was no problem with this part and i was able to get the mesh from geometry out put . then i wanted to use that output mesh to panelize it and then adding tabs and the nesting and cutting to get the parts. but the problem was every tutorial i looked up were using surfaces to panelize and nest so this was the first problem to convert the mesh into a surface and then panelazing and nesting . i tried using the mesh2nurbs but it didn't work out for me . (because i needed a single surface not some poly surfaces) . (attachment | input mesh )
so i started from the beginning and tried using a surface as an input for kangaroo and thus getting a surface as an output so i did that and tried to create a surface by the Surface from points component . and the result was not good the surface was kinda messed up and the the reason was the points were not ordered well i guess . so this was another problem for me . (attachment | input surface)(picture below)
so basically i have a few main questions :
1. is there a tutorial or any topic or book or somthing that explains from 0 to 100 from design to fabrication (as an example a pavilion) ?
2. can i use the mesh to panelize and nest and then fabricate ? and are there any tips or tricks to it ?
3. is the starting from surface for me a good idea or not ?
i am extremely sorry for talking this much and i'm grateful for the time you spent on reading this .
best wishes ; Babak.
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tects to overcome the imposition of prefixed architectural forms in order to enhance performance-driven design and responsive kinetic solutions that interact with humans and environment. Lectures on parametric design simulation, generative and form finding as well as environmental optimization, analyzing and digital fabrication prototyping, are integrated together in 2 main modules. Students from the beginning of the school will be divided into groups to compete on a case project increasing their ability to define project parameters, design factors, solving problems, understanding factors relationships, involving environmental and human sensors, and optimizing their projects solutions in smart and inelegance way. In the beginning of the school, parametric modelling will be introduced (Rhino3d and Grasshopper) to build the necessary skills of parametric generative form methods to students. In this module will be dedicated to digital design methods and physical model making by various fabrication techniques, including laser cutting and 3D printing. Students will focus on the idea of creating algorithmic architectural form inspired by nature and their research will be supported by a series of lectures. Also they will be split into groups in order to develop projects assigned by the professors. This Module also adds Form Finding techniques to the parametric design strategies. Students will learn how material system behaviors, physical forces and responsive structure system can be digitally simulated into parametric models in order to explore complex forms that optimized and adapted to its natural behaviors, initial forces, material, particles, and structure systems. Series of lectures on form finding, natural structural algorithms, material behaviors, and physical forces will lead student to optimize their project forms. It is experimental laboratory in which kinetic interactive Architectural models are tested and designed. Students will develop novel solutions, building upon learning responsive kinetic systems. They will design Architectural responsive robotic systems inspired by nature. Projects will transform by adapting to environmental conditions and human behaviors happening at real and virtual levels.
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chandelier where the process of design is perceived within the wide network of new digital technologies.
How:
Two phases will guide the exploration of the small object starting from an empirical moment of design to a more pragmatic construction phase
.A Design The first phase of the workshop is focused on parametric detailing and designing. The aim of the workshop is on generating volumetric non-standard lightweight structures within the constrains of available CNC machinery and material. Automatic unrolling, smart labelling and nesting are some of the things the participant will learn in the context of mass-customization. Rhino in combination with the Grasshopper will be used as a basic platform to develop the designs and prepare the documents for CNC-manufacturing. The design chosen for production and 1:1 assembly will be developed by the participants of the workshop.
.B Construction The second phase will be characterized by the realization of the best design previously selected. A consolidated expertise of Italian manufacture will sustain the building loop of the chandelier, from the production of the final components till the assembly of them. A milling machine is supported not only by a wide variety of different bits but mostly by a strong team of Italian craftsmen.
When:
. From Saturday the 7th of July 2012 till Friday the 13th of July 2012
Where:
. Iablu, via Enrico Mattei 40, 41043 Casinalbo Modena, Italy
Who:
The teaching method will be given by young experts in digital design and further implemented by professional Italian artisans, basic knowledge in the use of Rhinoceros 3D and physical modeling is required:
.A http://www.makeahybrid.org/ Matthijs la Roi .B http://www.iablu.it/ Carlo Maria Morsiani
Why:
The workshop is about the process of design, fabrication, construction, fun and friendship.
$:
The price relating the two periods will be 250 euros per person including :
.16 hours of design method .40 hours of fabrication method .material supply .milling machine time usage .insurance cover
It is important to know that in the expenses are not included the following services :
.night accommodation .food supply .transport .travel .extras
We are contacting all the members in play for the above mentioned list and we can estimate a minimum amount of 300 euros circa per person for European participants, prices for non-European participants are higher. These extra costs are an estimation but we will guarantee full assistance in all the organization parts.
!
Registration must be completed by Friday the 8th of June 2012, followed by a mail of confirmation including the payment procedure and insurance cover, any participant, furthermore must join the workshop with his own computer and software installed. Availability of max 10 participants
If interested write us to : candelabrum2.0@gmail.com Or visit us on : http://candelabrum2.tumblr.com
http://www.facebook.com/Candelabrum2.0…
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 :)…
ermedio fondamentali per la corretta comprensione del software Rhinoceros.
Il corso si svolgerà nei seguenti giorni:
Lunedì 07/10/2013 dalle ore 9:30.00 alle ore 13:30
Martedì 08/10/2013 dalle ore 9:30.00 alle ore 13:30
Lunedì 09/10/2013 dalle ore 9:30.00 alle ore 13:30
Martedì 15/10/2013 dalle ore 9:30.00 alle ore 13:30
Scadenza preiscrizione per Rhinoceros StartUP : 04/10
Contenuti
- Presentazione e spiegazione dell’ interfaccia
- Approfondimento dell’ utilizzo dei comandi base 2D per la gestione del documento di progetto
- Teoria Free-Form
- Modellazione di architetture semplici per eseguire operazioni Booleane semplici e complesse
(addizione, sottrazione, intersezione)
- Presentazione e spiegazione delle superfici a doppia curvatura e loro pannellizzazione
- Comandi di editing, superfici tagliate e raccordi tra superfici
- Analisi di curvatura, tangenza e posizione delle superfici
- Impaginazione e costruzione degli elaborati bidimensionali attraverso modelli tridimensionali
- Modellazione di architetture complesse
Destinatari
Il corso è rivolto a studenti universitari, professionisti ed anche a coloro che non hanno precedenti esperienze di modellazione 3D.
Alla fine del corso, verrà rilasciato l’attestato di partecipazione ad un corso di Rhinoceros qualificato e certificato dalla casa sviluppatrice McNeel, valido anche per la richiesta di crediti formativi universitari.
Docente del corso
Il corso sarà tenuto da un docente qualificato con riconosciuta esperienza universitaria, esperto in disegno e rappresentazione dell' architettura e del design ed istruttore McNeel:
Michele Calvano| _architetto, dottore di ricerca in rappresentazione architettonica specializzato nella modellazione matematica (Nurbs) e modellazione parametrica.
Docente ART ( Autorized Rhino Trainer) - [vedi - CV]
Info
Per ulteriori informazioni di carattere didattico sono a disposizione i seguenti contatti:
Responsabile didattico e docente del corso : arch. Michele Calvano
Info mail: parametricart@gmail.com
cell: 340 3476330
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