with 9 branches and tree 2 with 26 branches which each have 4 indices corresponding to one of the branches of tree 1. Now I would like to have for every branch of tree 2 the corresponding 4 branches of tree 1. The result would have a path in the form of {0 to 25;0 to 3}.
So far, the only way I have managed to get something close is by using the 'Explode Tree' component. However, I want it to be dynamical, so that the amount of branches in both trees can vary. In this setting the explode tree component would have to be changed manually to fit the right amount of branches.
Could anyone give me some advice?
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e 14h-18h (sessões diárias de 8h)
Grasshopper Nível I 9 e 10 de Abril 2-feira e 3ªfeira
9h-13h e 14h-18h (sessões diárias de 8h)
# ORGANIZAÇÃO Rhino3Dportugal # OBJECTIVOS - Utilizar as ferramentas digitais de forma criativa e rigorosa, para a concepção de modelos 3D – Familiarizar-se com as lógicas de criação de geometrias tridimensionais NURBS. - Desenvolver técnicas de criação de imagens fotorealistas com o motor de render V-Ray - Introduzir as lógicas paramétricas e associativas processo criativo. # INFORMAÇÕES E INSCRIÇÕES Link para inscrições online: http://www.rhino3dportugal.com/website/?page_id=368 info@rhino3dportugal.com Ana Fonseca: 917140716 Mais informações: Calendarização: http://www.rhino3dportugal.com/website/?page_id=186 Conteúdos: http://www.rhino3dportugal.com/website/?page_id=72 Site: www.rhino3dportugal.com…
Added by Brimet Silva at 10:32am on February 27, 2012
an introduction of the new robotic facilities at the Digital Architecture and Robotics Laboratory, while Lorenzo Vianello will give an introduction on researches and parametric tools that will enable the shift.
—-DARLab (Digital Architectural Robotics lab) is a research platform in architecture education that advances experimentation and cross-discipline collaboration among professors, students and industry partners to expand the boundaries of architectural practice. We are a mixed team of qualified experts from all over the world who work together to obtain the best results out of avant-garde technologies applied to architecture and design. Further information on http://www.dar-lab.net/South London Society of Architects (SLSA) is is the South London regional branch of the Royal Institute of British Architects (RIBA). It is a non-for-profit organisation, dedicated to promoting architecture and inspiring all involved in shaping of our environments. SLSA members include over 1,500 professionals and 220 architectural practices. Further information visit: http://slsanet.ning.com
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he domes there is no specific category for free formed roofs.
I started reading the EN 1991-1-4, parallel with this example of a two pitched roof wind load calculation. The problem emerged on the very start in the section EN 1991-1-4 4.2 where basic wind velocity values were calculated. In upper example they took 26 m/s for Aachen, Germany. Whereas European wind map shows only 5-11.5 m/s - differing for different types of terrain in that area.
Maybe you can send me some of your examples of wind value calculations?
If you think it is more appropriate to reply on this by email, than here is mine: issworld2000 [at] yahoo [dot] com.
Muchas gracias !…
points within the bounds of the site boundary and use each location as an attractor point controlling a variable at each point in the grid (radius of a circle/height of a cube/colour based on a gradient etc.).This would be based on proximity to the attractor points with the effect of each attractor point essentially scaled by the percentage associated with it. For example a location with 88% visitor rates would have a more dramatic effect than a location with 26% visitor rates.
I've had a bit of a play around but can't seem to get beyond the point of what is shown in basic point attractor tutorials online. I'm definitely a novice.
Here's how I figured it would be done:
1) Create a grid of source points within a boundary curve.
2) Select 18 pre-defined attractor points.
2) Measure the distance between the source points and the attractor points.
3) Invert this data so that variables increase with proximity rather than decrease.
4) Give each of the attractor points a strength value from 1-100% based on the visitor rates.
5) Use the scaled data to control a variable at each of the source points.
6) Create some way to control the drop-off rate of the effect from each point.
It is at step 3 that I get completely lost.
I hope my description is clear. Any help would be greatly appreciated,
Adam
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ts phase changing properties, as a spatial material without a traditional framework or support material creates the ability to navigate and fabricate directly on and around existing objects.
Use of 3D vector-based tool paths and a robotic arm forced the students to rethink their design strategy through the exploration of the relationship between material and tooling. Custom tools and techniques were developed through the workshop in order to work with this novel material. The following work produced during this 10-day workshop from students of Tamkang University, ChiaoTung University, Feng Chia University examine this approach....
Tutors
Ursula Frick University Innsbruck | [uto] | Austria
Thomas Grabner University Innsbruck | [uto] | Austria
Shih-Yuan Wang Swiss Federal Institute of Technology (EPFL)
Tsung-Hsien Wang Sheffield University | United Kingdom
Additive Robotic Materialization is an experimental research project in cooperation with Cheng Yang Product Design Co. Ltd (澄洋產品設計 佘昱錫) sponsored by Tamkang University Department of Architecture Prof. Chen-Cheng Chen (淡江大學建築系 陳珍誠教授) and ABB Taiwan.
special thanks to HAL - Thibault Schwartz for the educational license for this 10days workshop.
Music: 'Emergence' by Trifonic.…
comerciales. Rhino permite comunicar ideas en el desarrollo, investigación, manufactura, marketing y proceso de construcción de un producto o espacio, antes de ser construido y genera documentos constructivos para la elaboración de los mismos. Permite exportar los archivos a las extensiones comerciales más utilizadas en la industria como DXF, DWG, Illustrator y 3ds entre muchos otros. La gran cantidad de extensiones suplen las necesidades especificas para arquitectura, diseño de producto, calzado, joyería, ingeniería, manufactura y visualización fotorealista.
Grasshopper es una extensión de Rhino que permite el modelado paramétrico sin tener conocimientos de programación o matemáticas avanzadas, facilitando el desarrollo de modelos de alta complejidad a partir de formas simples o complejas.
En este taller se cubren los principios de parametrización, analisis, panelización, Corte CNC.
Sesiones: 15 de 3 hrs
Duración: 45 horas
Días: lunes, miércoles y viernes
Horario: de 19:00 hrs a 22:00 hrs
Costo:
Pago único: $4,000 (antes del inicio del taller)
Pago fraccionado: $4,500
Primer pago: $2,000 para reservar tu lugar.
Segundo pago: $1,250 - 26 de septiembre
Tercer pago: $1,250 - 3 de octubre
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