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
er.
¿WHAT IS PYTHON?
Python is a modern programming language. Python is sometimes called a scripting language or a glue language. This means python is used often to run a series of commands as a script or used to create links between two other technologies as a glue. It is easier to learn and use than other non-scripting style, compiled languages like C#, VB, or C/C++. Yet it is quite powerful.
You may need Python if you want to automate repetitive task in Rhino much faster, perform tasks that you do not have access to in the standard Rhino or Grasshopper tools, generate geometry using algorithms, etc.*
*More info HERE
GOALS
- To get familiar with programming using Rhino.Python, its tools and standard strategies. - To understand curves and surfaces definitions created, which are the based for complex objects generation. - Create 2D and 3D parametric objects using surfaces with Rhino.Pyhton scripts. - Python components in Grasshopper.
CONTENTS
- Program interface and syntax: Scripts generation and modules. - Basic concepts and strategies for programming using algorithms. - Lists, sequences and maths functions. - Loops and conditions - NURBS curves - Surfaces definitions. - Python for Grasshopper.
Dates: May 1, 2, 8, 9
Timetable: Saturday and Sunday 4 - 8 pm (Madrid, CET)
ENROLLMENT
185 eur
160 eur - Early bird fee for first 4 students
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Added by Diego Cuevas at 3:36am on September 11, 2018
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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cremental release is available for download. It fixes several bugs reported in the 0.9.0005 & 0.9.0006 versions. To wit:
Computer mice with smooth scrolling would not zoom well, this is fixed.
Previewable parameters with a lot of consecutive null items would crash, this is fixed.
Identical GHA files would collide during the loading process, this is handled.
GHA files with identical names would collide during the loading process, this is handled.
Solver Undo setting was not persistent, this is fixed.
Widget ZUI Zoom setting was not persistent, this is fixed.
Markov Widget Corner setting was not persistent, this is fixed.
Markov Widget Suggestion Count setting was not persistent, this is fixed.
Drag and Drop on Document and Template preview materials wasn't recorded, this is fixed.
AssignDataToParameter() COM-Access method was broken, this is fixed.
Geometry and Generic parameters with persistent data would not deserialize correctly, this is fixed.
Operator shortcuts via the Canvas popup instantiation menu no longer assigned data to the second parameter, this is fixed.
Cull Duplicates component did not always show the correct label upon deserialization, this is fixed.
Legacy VB/C# components would not correctly deserialize List access on input parameters, this is fixed.
Cloud Display component would still display old sprites on disconnect, this is fixed.
Minor changes to a document would trigger lengthy preview cache updates, slowing Grasshopper down. This is fixed.
Sphere 4Pt did not work correctly, this it fixed.
Failed data conversions in parameters would result in missing entries, this is fixed.
Text Tag components (2D & 3D) would not bake via the component menu, this is fixed.
There are also some new features:
Added Jump object for quickly navigating across a Canvas (Params.Util dropdown).
Added Relative Differences component which is basically the inverse of Mass Addition (Math.Operators dropdown).
Added tooltip wiggle controls to the Preferences window, Interface section.
'Draw Full Names' now also attempts to change the display of existing components, but only in the active document.
Drag+Dropping GHA, GHPY and GHUSER files onto the canvas now puts the original file into the bin.
Replaced Set Union component with a new one that has variable input parameters.
Replaced Set Intersection component with a new one that has variable input parameters.
Replaced And and Ternary And components with a single new one that has variable input parameters.
Replaced Or and Ternary Or components with a single new one that has variable input parameters.
Replaced Concatenate component with a new one that has variable input parameters.
Concatenate component now has a segment join option available via the component menu.
Added Digit options to the Transform Matrix Display object.
Integer parameters which represent options now have more informative context menus.
--
David Rutten
david@mcneel.com
Poprad, Slovakia
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Added by David Rutten at 11:06am on September 14, 2012
Rhinoceros y Grasshopper 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:
Proliferación en topologías complejas mediante Definiciones visualizados Estrategias de Mapeo y Análisis evolutivos en Tiempo Real Técnicas avanzadas de modelación 3D e imágenes foto realistas Vinculaciones 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).
Fecha y Lugar ∙ 3 semanas a partir del 15 de Marzo del 2012 - Lunes y Jueves de 19:00hs a 21:00hs - ∙ El taller se dictara dentro del ámbito de cursos del Arquitecto Alejandro Correa.
INFORMES: Ha11 en Facebook ha.11.arquitectos@gmail.com…
eroberfläche des Grasshopper Programms
Funktionsprinzip eines grafischen Algorithmus-Editors (Datenfluss)
Unterscheidung von Parametern (Datentypen) und Komponenten (Datenverarbeitung)
Erzeugung, Bearbeitung und Analyse von Geometrie-Typen: Punkte, Vektoren, Linien, Kurven, Flächen (surfaces, brep) und Netze (meshes)
Strukturierung der Daten anhand von Listen und Bäumen
unterschiedliche Verknüpfungsmöglichkeiten von Parametern (data matching)
praxisnahe Grundlagen der Geometrie und Vektorrechnung für generatives Design
effizienter Aufbau von parametrischen Modellen anhand Übungsaufgaben
Auszug von Daten aus Modellen für die Fertigung; Daten aus Tabellen (Excel, CSV) importieren, exportieren
Einsatz von benutzerdefinierten Komponenten (custom components)
Vorkenntnisse: Rhinoceros3d Benutzeroberfläche der Software: Englisch Unterrichtssprache: Deutsch
Details und Anmeldung:
www.vhs-sha.de
click: SUCHE
Kurstitel: GRASSHOPPER
oder direkt:
http://www.vhs-sha.de/index.php?id=90&kathaupt=11&knr=3151053&kursname=Grasshopper+I
Trainer: Peter Mehrtens
Kursdauer: 3 Tage / 8 Stunden pro Tag
Freitag, 19.07.2013, 08:00-17:00 Uhr Samstag, 20.07.2013, 08:00-17:00 Uhr Sonntag, 21.07.2013, 08:00-17:00 Uhr Ort: Volkshochschule Schwäbisch Hall, im Haus der Bildung
Teilnahmegebühr: 349,00 € Teilnehmerzahl: 4-10 Personen
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berfläche des Grasshopper Programms
Funktionsprinzip eines grafischen Algorithmus-Editors (Datenfluss)
Unterscheidung von Parametern (Datentypen) und Komponenten (Datenverarbeitung)
Erzeugung, Bearbeitung und Analyse von Geometrie-Typen: Punkte, Vektoren, Linien, Kurven, Flächen (surfaces, brep) und Netze (meshes)
Strukturierung der Daten anhand von Listen und Bäumen
unterschiedliche Verknüpfungsmöglichkeiten von Parametern (data matching)
praxisnahe Grundlagen der Geometrie und Vektorrechnung für generatives Design
effizienter Aufbau von parametrischen Modellen anhand Übungsaufgaben
Auszug von Daten aus Modellen für die Fertigung; Daten aus Tabellen (Excel, CSV) importieren, exportieren
Einsatz von benutzerdefinierten Komponenten (custom components)
Vorkenntnisse: Rhinoceros3d Benutzeroberfläche der Software: Englisch Unterrichtssprache: Deutsch, auf Wunsch auch Englisch
Details und Anmeldung:
www.vhs-stuttgart.de
Dieser Kurs wird in Kooperation mit ifBau gGmbH und VHS Stuttgart angeboten, und wird von ifBau als Fortbildung für Mitglieder der Architektenkammer BW anerkannt.
Trainer: Peter Mehrtens
Kursdauer: 3 Tage / 8 Stunden pro Tag
Freitag, 24.01.2014, 09:00-17:00 Uhr Samstag, 25.01.2014, 09:00-17:00 Uhr Sonntag, 26.01.2014, 09:00-17:00 Uhr Ort: VHS Stuttgart, Fritz-Elsas-Str. 46/48
Teilnahmegebühr: 510,00 € Teilnehmerzahl: 4-10 Personen
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len , I lost all of my work (at least the 3d modeling)
And I frankly if I want to participate I´ll need to finnish up the board and i cant do the renders on my own I need more time , but I only have until 11:59 pm of July 6 to finnish up one render, if you feel up to the challenge, whoever completes it will receive 290 dollars (its all I can give) to any account you want. I basically need one single image.
It consists on 3 towers, with an organic facade, I'm including the competition board I had saved on in my dropbox, I want more or less the same perspective shown on the left of the board.
Sorry, but i'm desperate, I had it all done but well cant control everything in life i guess, only do it if you feel you can pull off a professional render.
Thanks. (contact me and I´ll give you more info on the towers, I was able to save some limited sections and floor plans .... but yeah.. limited, so you´ll have to base your work on the images I provide here.
I can give some files now, including images of the physical model.
Board: http://i.minus.com/idYpFK844DWns.jpg
Physical model: http://imgur.com/a/PywJa
Hope its enough, I'm also including one image i had where I explored the footprints of all the buildings, but its just for reference.
I know theres barely enough time to finnish it... but I dont know what else to do, do you guys think i should probably just take a good photograph of the model and run with that? I feel that would probably look very unprofessional :l but I really dont have a choice here
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