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…
e radius). I used David Stasiuk Cocoon in order to make the shape. http://www.bespokegeometry.com/2015/07/22/cocoon/
After being happy with the shape I toggle the final generation of mesh from Cocoon with a subd of 1 (126,792 faces). I then calculate direction I want for the pattern, here the same directions as the nearest curve. Surely not the smartest way of doing but it works.
After that Reaction Diffusion could be used. A good site to understand is http://www.karlsims.com/rd.html A good site to choose feed and kill values is http://mrob.com/pub/comp/xmorphia/index.html In order to modify the size of the pattern I use B diffusion and also the size of the mesh. The directionality is controlled by _factor > 1 and pattern will follow tangents, and < 1 pattern will be perpendicular to the tangents.
Here differents parameters to play with
This script could surely be used to replicate Nervous Reaction design, thanks to them to their creativity. http://n-e-r-v-o-u-s.com/Laurent Delrieu August 2015…
to parametric design workflows. More information on syntactic design methodology:
My PhD dissertation (see chapters 3 & 4)
Designing with Space Syntax
Syntactic Design Methodology
For more information, videos, news and updates you can visit the following website.
See a video demo-tutorial here.
The plugin is available for download here: https://genesis-lab.dev/products/syntactic/
This plugin is completely compatible with SpiderWeb for Grasshopper and we hereby thank Richard Schaffranek for all we have learned from this extremely useful plugin.
NEW VERSION WAS RELEASED ON JANUARY 25, 2015.
UPDATE: Genesis Lab [webpage][website] is to modernize, open-source, and develop the toolkit starting in December 2021. Stay tuned for updates through my YouTube Channel and ResearchGate. …
ed pygeoj.py It must be in your script's folder by Karim Bahgat https://github.com/karimbahgat ----------------------------------- TODO : use something like : https://github.com/karimbahgat/PyCRS ----------------------------------- Copyright (c) 2015, Guillaume Meunier <alliages@gmail.com> GEOJSON_export is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. GEOJSON_export is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. GNU General Public License <http://www.gnu.org/licenses/>. @license GPL-3.0+ <http://spdx.org/licenses/GPL-3.0+> - Args: path: path where to export filename: filename of your JSON without its extension (GEOJSON added) using_keys: which key attributes to export, 'id' by default s_names: values of 'id' key s_keys: normally each surfaces user attributes' keys s_values: normally each surfaces user attributes' values s_vertex: vertex of each surfaces run: do the export Returns: out: various information coordiantes: coordinates in JSON format properties: properties in JSON format
VER 1.3
few bugfixes
31_5_2016
VER 1.2
create multipolygon (with holes and multiple objects)
23_3_2016
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VER 1.1
resolved problem with geometry check in qgis by closing completely polygon
5_1_2016
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VER 1.0
3_12_2015
In Extra category
code is here : https://gist.github.com/Alliages/8dbfce7cdd24383342b0
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I understand.
I think honeybee and ladybug together are already a great design tool. I didn't realize the whole story with CFD and the various ways you have tried. Have a lot of respect for your project and your colleagues that are working on this, and I hope you guys get enough credit just going for it considering just how ambitious your project is. and open-source equivalence of at least 7 percent equity share too :) as in per owners. if you guys can offer 1 year cliff and 4 year vesting I will consider joining your team. just kidding what your team is doing are beyond me.
After checking simulation CFD 2015, I realized that one big advantage for LB+HB is that well, I didnt see a built in feature of taking account for direct solar gain as part of the simulation.
From the tutorials I have seen, they set the reference temperature to the exterior walls, but there is nothing solar. Here is a rather comprehensive video of how to set up for Simulation CFD . From 10:30 you can see that boundary condition for exterior walls is set with a film coefficient and Reference temperature (around 12:30). At 12:33, there is actually a parameter called radiation right below. I check the parameters for that myself and found that it includes emissivity and reference temperature but not watt hour per square meter like we have it with ladybug.
SO even for a software like simulation CFD, which already seems very sophisticated with the pay-as-you-go cloud parallel simulation option and all, I don't see that it is designed for simulating natural ventilation. Since with SIM CFD it seems that one can be precise about everything including heat plumes from artificial lights in terms of watts so I am guessing that there is a way to model in solar gain as some kind of projected geometry somehow but it is pretty clear that there is EXTRA WORK needed to factor in solar gain there.
I think it would be pretty major if there is a way to model solar radiation and CFD for interior/building envelop together because I have not seen that kind of simulation in the industry.
Thank you for the extra ref cayote and coolvent. I will make check them out along with SAM.
p.s. I reread what I wrote and just wanted clearify I sure didn't refer to any of your work with honeybee or ladybug as "artistic illustration." I meant my pretty arrows :)
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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.…