ported to Rhino and "set" in Grasshopper, i trim both surfaces from their rectangular bases so that when sDivide is used it creates and distributes the same number of points on each surface.But heres the problems: a) if i use the "trimmed" surfaces with SrfGrid it errors warning: "A point in the grid is null. fitting operation aborted".I'd learned this was caused by "nulls" replacing position Data Items when the rectangular grid(surface base) was trimmed away. So i used Clean Tree which worked removing all nulls, then Shift Paths\Flip Matrix to create line-endpoint pairs for Polyline\Evaluate Curve. I Flattened the last Flip Matrix placing all data items in one source for SrfGrid, like in the working Untrim\CopyTrim definition.This time,.b) SrfGrid errored with: "The UCount value is not valid for this amount of points",.So, i substituted a 356 value, numeric Slider in the Addition B param., and tested its range until a valid UCount was found. Then SrfGrid fitted a surface thru the points, BUT,d) those SrfGrid surfaces are extremely deformed even thought the points preceding it from Evaluate Curve are accurate,SEE: def: "3b-RGH_SurfaceBlend.gh",AND,.a2) if i use Untrim with CopyTrim then SrfGrid works, but since the Jokers limbs WILL be in different surface positions then the blends between the Arm (for example) will rise from its relative FLAT position on the untrimmed Source surface to the Arm on the Target surface, rather than morphing from the Corresponding Arm position on the Source surface,. ..see def.: "4-RGH_SurfaceBlend.gh"So please let me know,..1) how to produce accurate surfaces from SrfGrid in def.: "3b-RGH_SurfaceBlend.gh",. ..(NOTE: BOTH these def's contain 2 indentical, "internalized" surfaces, but if def. 3b can be made to work it will also work with Dis-similar surfaces)2) which component to use or how else to determine the correct UCount value for a specified amount of points(ie:155), re: SrfGrid error: "The UCount value is not valid for this amount of points",.3) how else to force SrfGrid to work with Trimmed surfaces?, AND,..4) how to force intersurface, point-blend correspondence lines: Polylines(PLine) to be connected between correctly! correponding positions (Limbs) on the surfaces?,
Really! appreciate all help, definitions and kind generosity common to this knowledgable membership,
Cheers!,
Jeff…
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 case. Here's the thing. There is this subject at my university where we are assigned a famous building and we need to recreate it in Rhino. We're given bonus points if we manage to code some interesting part of it in Grasshopper. So far so good, I'm doing pretty well with Rhino and by far I am happy with the results I've achieved with modelling the given building. Harbin Opera House by MAD is the building I'm trying to model. There is one particular surface:I've built this surface in Rhino and now I'm trying to map pyramids on it. Not only have the pyramids to be different in height, but their height has to be dependent on the curvature of the surface. I'm getting some results but it seems to be exactly the opposite of what I need. I want to have higher/spikier pyramids where my curvature analysis shows red/blue and lower/slopier pyramids where the analysis shows green colour.At the moment I'm not really sure how the code I have works, but it seems that the height of the pyramids is dependent on a distance from a point in space to the projection of the cap-point of a pyramid.Here're my Rhino and Grasshopper files:surface1.3dm
surface1.ghI'd be grateful if someone of you guys could handle my problem. I've got one more issue with this surface, but once I get a solution to the first 1 will let know what the second one is.Thanks in advance and keep well!…
na cubierta o una estructura sigue en pie; presentar el router cnc en el evento depende del ejercicio práctico, para mayores informes no duden en escribir a luzyextura@gmail.com o a las oficinas de Bishon en Querétaro
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Workshop de arquitectura paramétrica mediante procesos digitales.
El temario incluye aspectos básicos y medios del modelado en Rhino, tanto de dibujo como de objetos en 3D, y las funciones de Grasshopper como una herramienta para el diseño paramétrico.
Al finalizar el curso, los asistentes serán capaces de manejar Rhinoceros y Grasshopper en un nivel medio, también comprenderán todas las herramientas básicas y el estilo de trabajo.
Además del contenido teórico se incluye un ejercicio práctico, que consiste en la producción de un modelo 3D, abarcando desde las ideas generadoras, el diseño, dibujo de piezas para su fabricación y construcción final.
El workshop tiene dos semanas de duración, con un horario de 8 am a 3 pm, el costo para estudiantes es de $4590, para la comunidad en general $4900. 35% descuento antes del 22 de julio
Informes bishion@mail.com, luzytextura@gmail.com.
Teléfono en Querétaro 4422 75 2863
Teléfono en la Ciudad de México 04455 4381 3302…
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.
Dimension
Del 12 Septiembre al 14 de Octubre de 2011
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
Es necesario traer Laptop Propia
En caso de requerir factura se cobrará el i.v.a.
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finalizzato a fornire i fondamenti della modellazione parametrica e generativa attraverso Grasshopper, plug-in di programmazione visuale per Rhinoceros.
“Tools are extension of our minds and our nervous systems. Through devices we are able to capture more invisible data to make it visible and readable. Self monitoring triggers selfknowledge and self awareness. This new and enormous potential about aquiring data can drive better our design explorations and customized solutions.”Lo spazio in cui viviamo è in ogni suo aspetto monitorabile e risulta essere un gradiente di dati in continua evoluzione e cambiamento. Uno dei maggiori vantaggi degli strumenti parametrici è quello di poter informare i processi progettuali con flussi di dati accurati, specifici e variabili nel tempo e nello spazio. “Data Fields” è un workshop dedicato al plug-in Grasshopper di Rhino3D che si focalizzerà sulla sua principale natura di processore di informazioni. Il workshop delineerà anche in che modo Grasshopper può essere usato per acquisire e manipolare flussi di dati provenienti da varie fonti, e come tali dati, a loro volta, possono essere utilizzati per informare sia i processi logici che le geometrie, dalle più semplici fino a quelle più complesse.L’obiettivo è quello di fornire una comprensione del valore delle informazioni e dell’articolazione dei dati, e di come siano già di per sè un’operazione progettuale, spaziale e architettonica. I risultati potranno quindi variare da puri protocolli di comunicazione dati, dataViz o geometrie “data-driven”.…
During the intense ten-day workshop of the AA São Paulo Visiting School 2014, advanced computational design and digital fabrication will be used to generate speculative new architecture models in the creation of a ‘liquid design’ that can mediate multiple-scale flows. The workshop will explore the redevelopment of a bordering territory along the Marginal Rivers of São Paulo, where in the 1960’s, much of the water-system was disastrously canalized, causing problematic flooding and the creation of ill-conceived residual post-industrial riverbanks that are inhabited by monolithic, large-scale programs such as sports centers, distribution centers, mega-stores and a convention center. The Visiting School São Paulo will work on bringing a new urban life for these sites by redefining the existing macro-architectural typologies along the river with micro-scale interventions that can introduce new flows of urban street culture. Specifically, the workshop will focus on the reinvention of the large-scale market distribution center, CEAGESP (Companhia de Entrepostos e Armazéns Gerais de São Paulo), to introduce programs and structures that could mediate a new movement of people, commerce, and environmental forces using parametric design and fabrication. Students can choose to work either at the larger architectural scale or at the scale of the shop-front display, bringing a new contemporary interface between agricultural production and consumption.
-Teaching team The teaching team will include lead tutor Hart Marlow of su11 (www.su11.com) who specialize in advanced digital design, and local-based architects, to promote innovative strategies informed by local political, economic and environmental issues. -Computational skills
The workshop will teach advanced digital modeling and parametric design skills and rapid prototyping software: no previous experience is needed. A group of specialist computation tutors will conduct an initial skills workshop and continue to assist throughout the workshop to develop the individual projects of the participants. -Digital Fabrication A series of physical models will be built using digital fabrication techniques that will be taught during the workshop, no previous experience is needed.
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of curved surfaces, its fabrication methods are still a challenge especially on the level of complex surfaces and large scale assemblies. Mathematical surfaces in general and hyperbolic paraboloids (Hypars) in particular embed neverending opportunities for planar construction techniques. The ancient surface of Hypars is one of the most interesting mathematical forms for architects from quantitative structural optimization to qualitative ornaments. Hypars have been used extensively in the works of avant-garde architects including: Gaudi, the Philips pavilion of le Corbusier, Shell structures of Felix Candela and Frei Otto tensile structures, as well as, many contemporary architects. Hypars workshop aims to develop the computational design techniques of complex organizations of hyperbolic surfaces from the structural to the ornamental scale in respect to the planar fabrication methods. The mathematical and geometrical qualities of ruled surfaces will be explored in parallel to material and assembly logic of planar elements for 1:1 prototype of an outdoor canopy in Alexandria. Geometrical properties of Hypars will be coded on the platform of Rhino and Grasshopper while the physical prototypes will be in wood and paper which offer an integrated and intuitive understanding of complex geometries and physical relationships. The workshop objective is to reconsider materials and fabrication as a design tool for architects. /// Application To apply, please follow this link to fill the application form https://docs.google.com/forms/d/1S2-7YNifUing8SVX3Iz9ArrgQgjIk77w9jzG70sIHv0/viewform /// Fees* 1700 EGP for students / 2000 EGP for graduates and young professionals * 20 % discount for early registration and payment before 22 nd of August 2014 more info on the workshop webpage: http://www.encodestudio.net/#!hypar/co9p…
se presentarán una pieza cortada con láser o CNC.Extracto de TemarioIntroducción Fundamentos Grasshopper Image Sampler V-Ray Interiores Que es es CNCFundamentos Interfase Visualización - Grasshopper V-Ray Exteriores Arboles de datos Corte, Laser e impresión 3dTeoria de Curvas Componentes y parametros Listas de datos V-Ray Materiales Clusters ToleranciasTranspocición Vectores y reticulas -Atractores Series y rangos Teoria de Superficies Conexiones Estrategias de modelado para manufacturaSimetrias Transpocisión parametrica Formulas Panelizacion Teoría de Ensambles Teoría de archivos para corteAtractores Cull Random Información del taller:Fechas: del 8 al 26 de Junio de 2015Sesiones: 8 de 3 hrs y presentación finalDuración: 27 hrs.Días: Lunes,Miércoles y ViernesHorario: de 19:00 a 22:00 hrsPrecio : $4,500 Apartado: $2,000Pago oportuno (antes del 1 de Junio): $3,500PAQUETESTaller y Rhino 5.0 Educativa: $6,500.00 Taller y Rhino 5.0 Comercial: $21,000.00 *Sólo hacemos reembolso en cancelaciones con un mínimo de 15 días previos al taller.info@dimensiontallerdigital.comtel oficina (55) 50160634…