esentar Digital Process: Generative Design Technologies Workshop; Taller especializado que se llevara a cabo en 4 de las ciudades mas importantes de la republica mexicana [Puebla] [Mexico DF] [Guadalajara] [Leon] en Enero y Febrero de 2012. http://gendesigntech.wordpress.com/
Enfocado principalmente a arquitectos, diseñadores industriales, diseñadores de interiores, Urbanistas, Artistas digitales, estudiantes y profesionistas afines al diseño; este Workshop tiene como objetivo proporcionar a los participantes los conocimientos y recursos tecnológicos que les permitan desarrollar los elementos de un proyecto desde la concepción hasta su aplicación de manera completa. Apoyándose en un conjunto potente y flexible de plataformas, los participantes aprenderán a generar, analizar y racionalizar morfologías complejas, formas orgánicas libres y algoritmos computacionales avanzados así como a producir visualizaciones fotorealístas aplicables en diversos proyectos de Diseño. A lo largo de 5 dias de intenso trabajo, exploración y retroalimentación los participantes seran guiados en el desarrollo de un flujo de trabajo mas dinamico, que les permitira explotar al maximo el potencial de las herramientas y potencializar sus habilidades, aptitudes y capacidades. Instructores: Leonardo Nuevo Arenas [Complex Geometry] José Eduardo Sánchez [DesignNest] Daniel Camiro/Luis de la Parra [Chido Studio] http://issuu.com/chidostudiodiseno/docs/digprowork Conoce el programa aquí. http://gendesigntech.wordpress.com/program/ Para registrarte por favor visita. http://gendesigntech.wordpress.com/registro
…
with Istanbul Technical University, will continue to rediscover verticality through novel generative design techniques and large-scale physical prototypes. Abstracted as a fusion of various sub-systems, each subsystem of the tower will be investigated in relation to their various performance criteria. The correlations between the separate sets of performance criteria and evaluation methods will be analyzed, leading to the generation of unified design alternatives for a vertical system typology. In addition to the custom-made digital design and evaluation tools supporting the core methodology, Vertical Interventions will also highlight the fabrication and assembly of a large scale working prototype integrating the performative characteristics of each system in examination.
As in 2012, the design agendas of AA Athens and AA Istanbul Visiting Schools will directly create feedback on one another, allowing participation in either one or both Programmes.
Discounts
The AA offers several discount options for participants wishing to apply as a group or participants wishing to apply for both AA Istanbul and AA Athens Visiting Schools:
1. Standard application
The AA Visiting School requires a fee of £695 per participant, which includes a £60 Visiting Membership. If you are already a member, the total fee will be reduced automatically by £60 by the online payment system. Fees are non refundable.
2. Group registration
For group applications, there will be a range of discounts depending on the number of people in the group. The discounted fee will be applied to each individual in the group.
Type A. 3-6 people group: £60 (AA Membership fee) + 635*0.75 = £536.25 (25 %) Type B. 6-15 people group: £60 + 635*0.70 = £504.5 (30%) Type C. more than 15 people group: £60 + 635*0.65 = £472.75 (35%)
3. Participants attending both AA Istanbul and AA Athens | 40% discount
For people wishing to attend both AA Istanbul 2013 and AA Athens 2013, a discount of 40% will be made for each participant. (The participant will pay the £60 membership fee only once.)
£60 (AA Membership fee) + (635*0.60)*2 = £822
For more information in discounts, please visit:
http://ai.aaschool.ac.uk/istanbul/portfolio/discounts-2013/
Applications
The deadline for applications is 21 March 2013. A portfolio or CV is not required, only the online application form and payment. The online application can be reached from:
http://www.aaschool.ac.uk/STUDY/VISITING/istanbul…
Added by elif erdine at 11:41am on December 13, 2012
looking to achieve is to replace every 25 value in a list with 0, 40 with 1, 15 with 2 and 60 with 3. This is what I have so far:
listArray = x
searchList = y
writeList = z
for n, i in enumerate(listArray):
if i == searchList[0]:
listArray[n] = writeList[0]
elif i == searchList[1]:
listArray[n] = writeList[1]
elif i == searchList[2]:
listArray[n] = writeList[2]
elif i == searchList[3]:
listArray[n] = writeList[3]
a = listArray
Any help appreciated,
Cheers,
…
ve Intermediate Insight of Computational Design Strategies While Exploring Rangoli Art form in 2 Dimension and 3Dimesion in which Participants will not only be trained to Digitally Design using Parametric software's but they will also be trained to Fabricate them in reality.
This Course will be explored in manner where Participants will understand inter-dependency of Rhinoceros3D & Grasshoper3D through a unique Hybrid Teaching Method While Exploring Rangoli Geometry .
The course will also take participants through Topics such as - Computational Thinking, - Computational / Parametric Design, - Computational Rangoli Exploration, - Digital Fabrication, - 3D Visualization ( Rhino3D 6), - Making Info-graphics & Design Diagrams ( Rhino3d 6 ).
Participants will also be doing a Project at the last Leg of Workshop in which they will implement the skill they gained in first Few Weeks.
{ Tutor } Nitant Pixelkar (Computational Artist / Designer, Mumbai)
Nitant Hirlekar A.k.a. Pixelkar, is a Computational Artist. He graduated from Rachana Sansad school of Interior Design 2011, Mumbai. In Academics He Bagged Two Gold and One Silver Medal on National Level.
In his post academic days, he came across the Emerging Computational Techniques in Design industry in which Algorithm serves as a main Functional part. He uses Algorithms to Deconstruct the Captured images in Pixelated form using the Grid of the Desired Indian Art Forms.
He Heads Collective Group Named "Mutation Lab” which is a multidisciplinary Design & Art Cell. Where they Explore Computational Approach while Designing Various Scales Spatial Installation, Digital Fabrication, Interactive Installations and Computational Consultancy for Various Architects.
He has exhibited his first artwork in Kalaghoda Arts Festival for in 2014 And further in 2016 and 2017.In 2015 he exhibited in Dharavi Biennale” organized by Wellcome Trust,London & Sneha Organisation, Mumbai Which was internationally acclaimed. In 2016 he got Featured on a TV show - The Creative Indian's as an Absolut Creative Indian of the Week.
Academically he is been involved in Many Computational Design Workshops / Elective Studios for School of Interior Design (Rachna Sansad), LS Raheja College of Architecture & Rat-Lab (Delhi).
{ Participants } The Course is aimed at Architecture, Interior Design, Product Design,Furniture Design & Fashion Design Students and Professionals. However we would be thrilled to have any Interdisciplinary Artist / Creator/ Maker to join the Course as well.
{ Level }
Intermediate
{ Timing } Monday To Friday - 6:00 PM to 9:00 PM (15 Hours/ Week = 5 Week X 15 Hours = 75 Hours )
{ Dates } Registration Ends - 24th April 2020 **Subejct to Availablity
{ Workshop Dates } 4th May 2020 To 5th June 2020
{ Venue } Lower Parel,Mumbai ( Details To Be Announced )
{ Schedule }
{Registration Form}…
s will learn to use these extensions in order to integrate numerous tools for analysis and simulation in the architectural process.
This course aims to develop a link between the virtual and the real context model through structural or environmental simulations, using other software or plug-ins dedicated. Through this link the virtual model receives physical properties that can further modify and adapt the initial model. This creates feedback loops that can optimize the design to provide an object responsive to environmental conditions.
Curriculum
Mesh subdivision with Weaverbird, continuous surfaces without NURBS
Genetic optimization with Galapagos, optimal search
Physical environment feedback with Diva and Geco, solar and day lighting analysis
Adding physical properties with Kangaroo Physics, interactive form-finding
Linking the parametric model with structural analysis using Karamba, structural performance simulation
Extracting data with Firefly and Kinect, 3D scanning and human movement tracking
Exchange of information between Grasshopper and other applications with Ghowl links to internet feeds or Excel files.
Schedule:
Module Grasshopper intermediate & advanced (24 h)
1 Nov – 15 Nov 2014
Sat:
9 - 13
14 - 18
Language: Romanian
Trainers:
Ionuț Anton, idz arhitectura (ART-Authorised Rhino Trainer)
Dana Tănase, idz arhitectura (ART-Authorised Rhino Trainer)
https://www.facebook.com/cursurigrasshopperrhinoceros
https://www.facebook.com/idzarhitectura
http://www.idz.ro/training/…
Added by Dana Tanase at 2:23am on February 2, 2014
dello spazio. In dipendenza dal proprio modo di interazione ambientale, gli edifici possono essere distrubuiti e/o aggregati in modalità appropriate in modo da accumulare o disperdere gli effetti della loro interazione e il proprio impatto sull'evoluzione delle relazioni future. A livelli più bassi si può, ad esempio, considerare la distribuzione di componenti o caratteristiche lungo un involucro.
Approcci basati su unità funzionali operano una proliferazione basata sulla ripetizione indifferenziata e insensibile all'ambiente, risultando in una discretizzazione di matrice convenzionale e nella separazione tra edifici, edifici e contesto o spazi interni ed esterni; un diverso tipo di approccio, basato sulla condizione (termine usato nella sua doppia accezione di indicatore dinamico della tendenza di sviluppo dell'ecosistema e in quella causale – if a then b), introduce una forma di proliferazione che sfida e scioglie la dicotomia artificiale: molte piante crescono ovunque le condizioni portino ad esse beneficio, senza riguardo per limiti codificati nello spazio in cui si sviluppano. Le implicazioni sulla negoziazione dello spazio e sulla definizione di soglia sono notevoli; il sistema produce un campo armonicamente articolato e differenziato di fenotipi a partire dal genotipo attraverso un processo di "estetica delle forze" guidata attraverso lo strumento digitale.
A livello urbano questo può tradursi nella proliferazione di infrastrutture o di spazi che mettono in discussione la concezione statica di "confine" e "unità" in favore di modelli in grado di generare una gamma più estesa di inflessioni tra livelli di complessità e indirizzarli per abilitare e rendere accessibili potenzialità d'uso a loro volta articolate e complesse.
Il tema sarà dipanato attraverso le giornate del workshop sviluppando aspetti teorici e tecnici dell'approccio parametrico generativo, con particolare attenzione a strategie di design urbano basate su caratteristiche endogene (vincoli interni del sistema) ed esogene (fattori ambientali) allo scopo di stimolare l'esplorazione di soluzioni sistemiche innovative.
Il numero dei partecipanti è stabilito tra le 15 e le 20 persone per offrire un tutoraggio proficuo ed una effettiva esperienza di learning ad ogni iscritto.
[.] Temi
. teoria
. condizione, genotipo/fenotipi, transizione, mappatura, eleganza, sensibilità, spazio
. tecnica
. dati:gestione, manipolazione, visualizzazione
. generazione di geometria da dati
. logiche parametriche applicate al design
. genotipo/fenotipi
. attrattori, mappers, drivers e tecniche di modulazione
[.] Dettagli
Istruttori: Alessio Erioli + Andrea Graziano + Davide Del Giudice – Co-de-iT (GH & design tutors).
Si richiede esperienza di base nella modellazione in Rhino (equivalente a Rhino training Level 1, il Level 2 è gradito – la documentazione per il training è disponibile gratuitamente all'indirizzo: http://download.rhino3d.com/download.asp?id=Rhino4Training&language=it).
Luogo :
presso NETFORM – via Alessandro Cialdi 7, Roma
Orario :
9.00-18.00.
info:
info@a-m-u-r-i.it
Phone:
+39 338 4201162
iscrizioni:
http://www.cesarch.it/…
ies and ideas (in this case agent-based modelling) simply because they are the new cool thing to do and, if we think carefully about how the integration of agent-based modeling will improve the accuracy and usefulness of our models, we are more likely to make lasting contributions through their integration.
For example, it seems vital to me that such agent-based models be grounded in some clear quantifiable observations of human behavior in real buildings as opposed to relying on our own coefficients to represent how valuable we think certain things are to the occupants. I will give an example of two agent-based ideas that I have had - one of which has turned out to seem much more valuable in the long-run because of it's grounding in real-world data and I plan to implement soon.
To start with the more valuable example, ever since I read this awesome book on adaptive thermal comfort (https://books.google.com/books?id=vE7FBQAAQBAJ&printsec=frontcover&dq=adaptive+thermal+comfort&hl=en&sa=X&ved=0ahUKEwjDmO6avNnJAhUD9h4KHXWVBuAQ6AEIHDAA#v=onepage&q=adaptive%20thermal%20comfort&f=false), I have had several ideas for how to integrate the findings of recent comfort surveys into our energy models. Generally, the focus of thermal comfort research seems to be shifting from theoretical human energy balance calculations to surveys of occupant behavior, giving us a lot of great data that helps incorporate these behavioral factors in our energy models. To continue one of the ideas that you mention, Theodore, here is a plot from the book that describes the window-opening behavior of occupants as the indoor temperature increases:
Currently, EnergyPlus does not easily allow you to set such a function for window-opening, as you point out but the incorporation of this behavior seems necessary to produce an accurate model of a naturally ventilated building (since opening all of the windows as soon as the indoor temperature hits 21 C is far from realistic). To get around this, I was thinking of including an option on the nat vent component that will put in a series of IF/THEN nat vent objects that approximate this smooth function through a step function:
IF 19 < indoor temperature < 20 THEN WindowOpening = 10%
IF 20 < indoor temperature < 21 THEN WindowOpening = 15%
IF 21 < indoor temperature < 22 THEN WindowOpening = 21%
IF 22 < indoor temperature < 23 THEN WindowOpening = 35%
...
I am hoping to implement this soon.
To describe the example that I have realized was not so helpful with time, when I was first drafting the idea for high-resolution comfort maps (https://www.youtube.com/playlist?list=PLruLh1AdY-Sj3ehUTSfKa1IHPSiuJU52A), I originally thought that I would develop computer models an animations of occupants moving around the thermally diverse space to make themselves more comfortable. Once I started to get into this, however, I realized that the social characteristics of a space usually have a much larger impact on where people place themselves than the thermal characteristics and it is not until the thermal characteristics become very uncomfortable or the presence of other people is completely removed that the thermal environment dominates the movement behavior. Thus, in order to model the occupant behavior, I would have to code in the relative importance of a large number of these social characteristics in relation to thermal comfort, which would have been a process of me simply making up coefficients to produce cool-looking but somewhat meaningless animations. It is only when my nicely-designed thermal environments were aligned with the social/programmatic characteristics of the space that I could argue that I was justifiably adding value since the thermal characteristics were not in contradiction to or being weighted against the social ones. So, in the end, realized that all I needed in order to produce a good design was to align the thermal environment with the placing of program and the agent-based modelling would not have enabled the production of a much better design. This is the reason why the human silhouettes are manually placed in the thermal animations on the youtube playlist in the above link and is the reason why I do not intend to incorporate agent-based modelling in this particular manner.
Let me know your thoughts on this as I realize I may also be looking at this from a narrow perspective that is not informed by all that agent-based modelling has to offer.
-Chris…
g "ipy" form the CMD line.
Now what is Numpy good for I wonder? I hear it does big arrays quickly. And do I also have Scipy? Is that a bonafide package? Alas, "import scipy" gives an error:
C:\Users\Nik>ipy
IronPython 2.7 (2.7.0.40) on .NET 4.0.30319.34209
Type "help", "copyright", "credits" or "license" for more information.
>>> import numpy
>>> import scipy
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
File "C:\Program Files (x86)\IronPython 2.7\lib\site-packages\scipy\__init__.p
y", line 124, in <module>
File "C:\Program Files (x86)\IronPython 2.7\lib\site-packages\numpy\_import_to
ols.py", line 15, in __init__
AttributeError: 'module' object has no attribute '_getframe'
>>>
...and again the rabbit hole is even deeper now. The directory and contents checks out fine except there is no "_import_to" like there is "__init__.py".
So where is Scipy? How do I activate/install it for real?
The above mentioned test gives no error, however:
ipy -X:Frames -c "import scipy"
...yet the same import from within IronPython does give an error.
…
Added by Nik Willmore at 3:06pm on October 11, 2015
2013 | Sábados 19 y 26 de octubre. 15 Hrs.
Horario: 9:00 - 18:00 Hrs.
Instructores por BIO|Architecture Studio: A design & building laboratory.
Palabras clave:
Diseño Computacional, Scripting, Rhinoceros 5.0 + Grasshopper, Parametrización, Análisis, Fabricación Digital, 3D print.
Para mayor información:
MArch. Kathrin Schröter. E-mail: kschroter@itesm.mx
Dirección de Arquitectura. Oficinas de Aulas 1, segundo piso.
Carretera Lago de Guadalupe Km.3.5 Col. Margarita Maza de Juarez, Atizapan de Zaragoza. | 5864 55 55 Ext.5750.…
rring to the above image)
Area
effective
effective
Second
Elastic
Elastic
Plastic
Radius
Second
Elastic
Plastic
Radius
of
Vy shear
Vz shear
Moment
Modulus
Modulus
Modulus
of
Moment
Modulus
Modulus
of
Section
Area
Area
of Area
upper
lower
Gyration
of Area
Gyration
(strong axis)
(strong axis)
(strong axis)
(strong axis)
(strong axis)
(weak axis)
(weak axis)
(weak axis)
(weak axis)
A
Ay
Az
Iy
Wy
Wy
Wply
i_y
Iz
Wz
Wplz
i_z
cm2
cm2
cm2
cm4
cm3
cm3
cm3
cm
cm4
cm3
cm3
cm
I have a very similar table which I could import to the Karamba table. But I have i_v or i_u values as well as radius of inertia for instance.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
dimensjon
Masse
Areal
akse
Ix
Wpx
ix
akse
Iy
Wpy
iy
akse
Iv
Wpv
iv
Width
Thickness
Radius R
[kg/m]
[mm2]
[mm4]
[mm3]
[mm]
[mm4]
[mm3]
[mm]
[mm4]
[mm3]
[mm]
[mm]
[mm]
[mm]
L 20x3
0.89
113
x-x
4,000
290
5.9
y-y
4,000
290
5.9
v-v
1,700
200
3.9
20
3
4
L 20x4
1.15
146
x-x
5,000
360
5.8
y-y
5,000
360
5.8
v-v
2,200
240
3.8
20
4
4
L 25x3
1.12
143
x-x
8,200
460
7.6
y-y
8,200
460
7.6
v-v
3,400
330
4.9
25
3
4
L 25x4
1.46
186
x-x
10,300
590
7.4
y-y
10,300
590
7.4
v-v
4,300
400
4.8
25
4
4
L 30x3
1.37
175
x-x
14,600
680
9.1
y-y
14,600
680
9.1
v-v
6,100
510
5.9
30
3
5
L 30x4
1.79
228
x-x
18,400
870
9.0
y-y
18,400
870
9.0
v-v
7,700
620
5.8
30
4
5
L 36x3
1.66
211
x-x
25,800
990
11.1
y-y
25,800
990
11.1
v-v
10,700
760
7.1
36
3
5
L 36x4
2.16
276
x-x
32,900
1,280
10.9
y-y
32,900
1,280
10.9
v-v
13,700
930
7.0
36
4
5
L 36x5
2.65
338
x-x
39,500
1,560
10.8
y-y
39,500
1,560
10.8
v-v
16,500
1,090
7.0
36
5
5
I have diagonals (bracings) which can buckle in these "non-regular" directions too, and they do. If I could add those values then in the Karamba model I could assign specific buckling scenarios..... I can see another challenge which will be at the ModifyElement component, I will not be able to choose these buckling lengths, in these directions.
Do you think this functionality can be added within short, or should I try to find another way to model these members?
Br, Balazs
…