2015. You will have the opportunity to play with an experimental large scale distributed framework we have been busy with over the last few months called 'Stampede'. You will get knowledge on MDO and parametric design, meet some of the developers of the framework, hands-on experience and investigate the gained results in an experimental atmosphere. You will be working with Rhino and Grasshopper during the workshop.
PROGRAMME
The workshop will start with an introduction on Stampede and the different technologies involved, such as cloud computing, parametric modelling and multi-disciplinary design optimisation. After the presentations, we will discuss an example use case, get to work with and gain some hands-on experience by applying your newly gained knowledge to design your own multi-disciplinary design optimisation model and investigate its behaviour.
REGISTRATION
Excited? The IASS conference organisation lowered the price of the two-day workshop from € 250,- to € 150,-. You can register here via the IASS2015 website. The workshop is also available for people who did not register for the IASS2015 Symposium. There is also a rumour around that if you e-mail White Lioness that you can get a code for a even bigger discount.
MORE INFORMATION
Keep an eye on the Stampede website if you want to keep up to date with the latest developments about the workshop. Updated information about Stampede and the workshop will be regularly posted.
CONTACT
Please contact Dion Jansen for more information +31 (0) 20 737 1997 or send an email to dionjansen@wlnss.com.…
NURBS using Rhinoceros. Content includes: Basic terminology, user interface, workflow strategies, using reference material and creating drawings from modeled geometry.
Workshop 2: Introduction to Parametric Design
Instructor: Rajaa Issa
(12:30 PM-3:30 PM)
This workshop will introduce the general framework of parametric thinking with a series of hands-on tutorials using Grasshopper for Rhinoceros. It is meant for beginners who have little to no idea about parametric modeling. The workshop will introduce the general components of an algorithm, design workflow, Grasshopper interface and visualization techniques. The students are expected to have basic knowledge of the Rhino modeling environment. Workshop 1 should fulfill this requirement.
Registration: Computers and software will be provided. Space is limited to 20 seats per workshop. The fee for each workshop is $60 (plus a $4.29 fee). There is a special rate of $30 (plus a $2.64 fee) for students and teachers provided they request a discount here with their school email address before registering. Register now……
ature. By investigating the process of decay across various scales, we will formulate rules of generating decomposition as our design research area. These rules will evolve into design strategies for the creation and fabrication of a large-scale prototype. The design and fabrication process will be informed by the use of robotic fabrication techniques.
The three-week long programme is formulated as a two-phase process. During the two-week initial phase, participants benefit from the unique atmosphere and facilities of AA’s London home. The second phase, lasting for a week, shifts to AA’s woodland site in Hooke Park and revolves around the fabrication and assembly of a full-scale architectural intervention.
Prominent Features of the programme:
• Teaching team: Participants engage in an active learning environment where the large tutor to student ratio (5:1) allows for personalized tutorials and debates.
• Facilities: AA Digital Prototyping Lab (DPL) offers laser cutting, CNC milling, and 3d printing facilities. The facilities at AA Hooke Park allow for the fabrication of one-to-one scale prototypes with a 3-axis CNC router, various woodworking power tools, and robotic fabrication.
• Computational skills: The toolset of Summer DLAB includes but is not limited to Rhinoceros, Processing, Grasshopper, and various analysis tools.
• Theoretical understanding: The dissemination of fundamental design techniques and relevant critical thinking methodologies through theoretical sessions and seminars forms one of the major goals of Summer DLAB.
• Professional awareness: Participants ranging from 2nd year students to PhD candidates and full-time professionals experience a highly-focused collaborative educational model which promotes research-based design and making.
• Fabrication: According to the specific agenda of each year, a one-to-one scale prototype is fabricated and assembled by design teams.
• Lecture series: Taking advantage of its unique location, London, Summer DLAB creates a vibrant atmosphere with its intense lecture programme.
Eligibility: The workshop is open to architecture and design students and professionals worldwide.
Accreditation: Participants receive the AA Visiting School Certificate with the completion of the Programme.
Applications: The AA Visiting School requires a fee of £1964 per participant, which includes a £60 Visiting Membership fee. A deposit of £381 is required when registering with the online form. The deadline for applications is 20 July 2015. No portfolio or CV is required. Online application link:
https://www.aaschool.ac.uk/STUDY/ONLINEAPPLICATION/visitingApplication.php?schoolID=325
Return train tickets between London-Hooke Park, accommodation & food in Hooke Park, and materials from Digital Prototyping Lab (DPL) are included in the fees.
Programme Directors:
Elif Erdine (AA Summer DLAB Director): elif.erdine@aaschool.ac.uk
Alexandros Kallegias (AA Summer DLAB Director): alexandros.Kallegias@aaschool.ac.uk
…
思った感じになりません。
balls の代わりにplanarカーブを直接入れてみましたがエラーが出ます。
ファンクションにしてみたところ、forループので作った数値が反映されていません。
ファンクションのインスタンス?を出力していないと思い上記のようにしましたがエラーが出てしまいます。
以上の事から自分の認識が正しいのかよくわからなくなりました・・・
python自体の深いところをわかっているわけではないので余計こんがらがりました。
そこで、for b in ballsはどのような条件または使い方であれば使えるのでしょうか?
そして、上記のように別のオブジェクトに対しての使い方はどのようにすればできるのでしょうか?
2:同じファンクション内のdist = rs.Distance(self.pos,b.pos)についてですが
この文章も for b in balls によってbはBallのインスタンスであると定義?されたためb.posがbの位置であると分かるのでしょうか?
pythonは定義しなくても動いてしまうのでどのような時に使えるのか文章見ただけではよくわかりません・・・
大変細かいことかもしれませんが、よりpythonをしっかりと理解するためにも、どなたかわかる方ご教授いただけると幸いです。…
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
-----
VER 1.1
resolved problem with geometry check in qgis by closing completely polygon
5_1_2016
---
VER 1.0
3_12_2015
In Extra category
code is here : https://gist.github.com/Alliages/8dbfce7cdd24383342b0
…
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.…
looked at autodesk simulation cfd 2015 and was optimistic because it had an export plugin from revit, which i use anyway for material takeoffs and etc, but found that it did not take solar radiation into account. This was a downer because I have heard that solar radiation could effect indoor airflow - convection - as much as 50 percent at a time.
Then I searched again and found that Hyperworks, a software by altair technology can be coupled with a radiation software. So I went through the trouble of obtaining an educational license of Hyperworks. However, though some email exchange I have found that the coupling is a one-way. The radiation analysis software was used, I think, for understanding the solar loading for a SOM project called church of light.
The support guy said : "Unfortunately our coupling with Hyperworks is really a one way coupling. We can accept H coefficients from their software in RadTherm, but they will not read in our wall temps. That said, it still can be a useful coupling in the sense that you can run the analysis in Hyperworks, send H coefficients to RadTherm, and run the analysis to better understand radiation and conduction. Most importantly, that analysis can be done for longer transient analysis, but will require much less compute time and resources."
Not only did I not understand what he means by the H coefficients, my wanting to get a CFD understanding coupled with solar radiation was again, unsatisfied. In the mean while I had to finish a presentation so I haven't had the time to try to get some result on the natural ventilation. I would probably need to look into how their solutions work before I can understand if their software would "do the job"
Thank you for letting me know about your work on this. I downloaded the Honeybee_Set EP Natural Ventilation component and made sure that it is allowed, but it does not show up in grasshopper.
You pointed out that "The component (and the corresponding equation) is mostly meant for cases where you have zones with windows that are NOT connected by an air wall (or a larger airflow network)." I wondered if you are suggesting it would be a code violation for zones to be connected by an air wall for fire safety reasons. It would be a violation I guess, like not putting an fiber insulation or some kind of smoke stop between Spandrel panels and the edge of a floor plate would be a code violation for a typical office building.
There is a project by kevin daly architects where you can see a section drawing with what seems like a cfd analysis (could be an illustration)
it was my initial visualization/simulation goals were for a facade design I am working on
1) an average air velocity across a zone at noon, for example, if a passive design strategy like this was used. for this I am guessing cfd is not entirely necessary. probably means that it could be used earlier in a design process, too. This would be more about user comfort.
2) at a later phase, like in detailing facade components, if airflow is indeed as expected for a zone that is connected to an air wall / chimney like feature (and to see if there is a proper mixing of air)
3) and a projection of energy savings, of course.
After seeing a video of simulation cfd I was optimistic, but like I said sim cfd does not take account of solar loading. I think I would probably go ahead start with one zone with sim cfd first, try three zones stacked on top of each other, then try hyperworks and try to factor in solar radiation.
For analyzing multiple zones on different levels, being able to add a chimney would be especially useful, I think. Having said that, I don't have a lot of experience of using honeybee except for the daylight component so it would take some time for me to understand the components.
I hope some of the information here is useful for you. after all, both sim cfd and hyperworks are commercial softwares and somewhat different than the e plus project you are working on, I guess but still trying to address a similar problem.
so.. in cased you missed it I was asking I downloaded the Honeybee_Set EP Natural Ventilation component and made sure that it is allowed and placed in the user object foler, but it does not show up in grasshopper. what could be the reason?
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