next level.
This Parametric Design course will provide the participants with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros; you will be guided through a series of hands-on exercises that highlight NURBS modeling and its concepts. We will introduce Grasshopper as a graphical algorithm editor tightly integrated with Rhino’s 3D modeling tools. You will also learn how Rhino is used to render models for visualization, translate 3D models for prototyping, and export 3D models into 2D CAD or graphics programs.
English is the course main language.
Location: Düsseldorf city center
Registration and buying Tickets
www.digitalparametrics.eventbrite.de
Course Calendar:
4 Days 6 hours each
Total duration 24h
2 weekends
Date:
Sat. 17 - Sun. 18 June
Sat. 24 - Sun. 25 June
10:00 - 17:00
Getting Started in Rhino. 2 days (17 - 18 June)
Getting Started in Grasshopper. 2 days (24 - 25 June)
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Participants will be given a certificate of participation at the end of the course.
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Course fees:
Professionals: 600€ (excl. MwSt.) Students: 500€ (excl. MwSt.) Students need to provide: Copy of current student ID or proof of student enrollment at University/School.
Group discounts:
Group of 3 professionals: 3x500 = 1500€ (excl. MwSt.)
Group of 3 Students: 3x400 = 1200€ (excl. MwSt.)
Participants are kindly asked to bring their own laptops and have pre-installed Rhino + Grasshopper.
Useful Resources:
Rhinoceros Installation (90 days full version trial available): http://www.rhino3d.com/download
Rhinoceros for Mac (includes Grasshopper) http://www.rhino3d.com/download/rhino-for-mac/5/wip
Grasshopper Free Installation: http://www.grasshopper3d.com/page/download-1
Grasshopper Free Plugins: http://www.food4rhino.com/app/lunchbox http://www.giuliopiacentino.com/weaverbird
Main Tutor:
Rihan
M.A. Dipl.Ing. Architect
Architect at RKW Architektur + Düsseldorf
For any questions about the course, please email: info@immersive-studio.com…
anuary, 1970 UTC.
This common standard applies to Java and PHP as well. Date and time are treated as a single integer type (milliseconds) which allows "Date + Hours = Date" and many other conveniences.
As to benchmarks, I'm aware of the OS clock issues (back in the day, the first IBM PC running UCSD Pascal had a minimum interval of 18 milliseconds) but have always found that by counting enough loops so that the elapsed time is considerably greater, good benchmarks are easy and accurate.…
Added by Joseph Oster at 5:40am on January 28, 2016
lly need to divide it into 18, so the list lengths match.
Also you need to use Flip Matrix, to have the points go by row and not column. Then its pretty much it.
Dont worry, it also took me a while to figure this stuff out when I was starting with Grasshopper.
Is this what you were after:
…
ons of the frets requires the simplest bit of math. The (really) historical technique is called the rule of 18, and it involves successively dividing the scale length minus the offset to the previous fret by 18. [...] The invention of the pocket calculator made it possible to make use of a more accurate constant, and so these days we conventionally calculate fret positions for equal temperament by successively dividing the scale length minus the offset to the previous fret by 17.817.
And from here: http://www.stewmac.com/How-To/Online_Resources/Learn_About_Guitar_a...
The "factor" for fret spacing is 17.817154.
So using Anemone to loop, I got this:
I must admit that it doesn't look quite right, and I'm not sure why...?…
ace Syntax." eCAADe 2013 18 (2013): 357.
http://www.sss9.or.kr/paperpdf/mmd/sss9_2013_ref048_p.pdf
The measure Entropy is newer. I hereby explain it (from my PhD dissertation):
Entropy values, as described in (Hillier & Hanson, The Social Logic of Space, 1984) and specified in (Turner A. , “Depthmap: A Program to Perform Visibility Graph Analysis, 2007), intuitively describe the difficulty of getting to other spaces from a certain space. In other words, the higher the entropy value, the more difficult it is to reach other spaces from that space and vice-versa. We compute the spatial entropy of the node as using the point depth set:
(11)
“The term is the maximum depth from vertex and is the frequency of point depth *d* from the vertex” (ibid). Technically, we compute it using the function below, which itself uses some outputs and by-products from previous calculations:
Algorithm 4: Entropy Computation
Given the graph (adjacency lists), Depths as List of List of integer, DepthMap as Dictionary of integer
Initialize Entropies as List(double)
For node as integer in range [0, |V|)
integer How_Many_of_D=0
double S_node=0
For depth as integer in range [1, Depths[node].Max()]
How_Many_of_D=DepthMap.Branch[(node,depth)].Count
double frequency= How_Many_of_D/|V|
S_node = S_node - frequency * Math.Log(frequency, 2)
Next
Entropies [node] = S_node
Next
…
ilizará Grasshopper como herramienta prima en el diseño paramétrico de componentes geométricos bajo una lógica abierta y generativa, integrando metodologías de modelamiento digital [técnicas de modelamiento asociativo, comportamiento colectivo, proliferación de componentes geométricos, etc] y metodologías constructivas[limitaciones materiales, comportamiento estructural, procesos de manufactura, etc].…
ización de estructuras, panelización de superficies, gestión y conexión con tablas de datos, automatización de dibujo, programación visual … Adjuntamos el temario del cuso. El contenido del curso ha sido revisado y ampliado, gracias a la experiencia de nuestros anteriores. Está orientado a profesionales y estudiantes de arquitectura y diseño en general.
Será impartido por dos Authorized Rhino Trainers en Madrid, en la calle Bailén. Tiene un formato intensivo de 18 horas; el horario es: viernes, de 17 a 21; sábado, de 10 a 14 y de 16 a 20; y domingo, de 11 a 14 y de 16 a 19. El número de asistentes está limitado a un máximo de 8 personas.…
Added by Miguel Vidal at 11:11am on December 17, 2009
2013 | mayo 30, 31 y 1 de junio. 15 Hrs.
Horario: 18:00 – 22.00 Jueves, Viernes y Sábado de 8:00 a 16:00 Hrs. Instructor_ Arch. David Hernández Melgarejo.
http://bioarchitecturestudio.wordpress.com
Objetivos:
El curso está dirigido a cada diseñador, ingeniero o arquitecto que quiere obtener una sólida base en modelado generativo y paramétrico dentro del flujo de trabajo en Rhinoceros.
En el curso se explorarán y construirán estructuras en el espacio paramétrico, incorporando entidades geométricas (Curvas, Superficies, Puntos, etc…) y usando patrones algorítmicos.
Cada paso será soportado con ejercicios que gradualmente incrementarán su complejidad.
El alumno aprenderá cómo trabajar con asociación geométrica y parámetros. Para perfeccionar asociación geométrica – asociación entre partes, asociación dinámica – las formas geométricas son generadas al seguir la conexión lógica entre la parte geométrica y su restricción, dimensión paramétrica y él proceso dinámico del diseño: en pocas palabras estimulamos el pensamiento relacional.
Resultados:
Los participantes con éste entrenamiento obtendrán las siguientes fundamentos.
· Construir, modificar, depurar y correr aplicaciones de Grasshopper.
· Comprender el editor gráfico algorítmico y sus patrones usando grupos y cables conectores.
· Trabajar con dimensiones dinámicas, parámetros y listas.
· Generar aplicaciones orientadas a la documentación del diseño y la fabricación.
Palabras clave:
Diseño Computacional, Scripting, Rhinoceros 5.0 + Grasshopper, Parametrización, Análisis, Fabricación Digital.
Para mayor información:
MArch. Kathrin Schröter. E-mail: kschroter@itesm.mx
Dirección de Arquitectura. Oficinas de Aulas 1, segundo piso.…