and Ronnie of StudioMode and David Fano of DesignReform will also be attending.
RSVP has been closed on this event. Space is limited to 50 people. Please attend if you do RSVP.
Agenda -
12:00-1:00 Arrival, informal discussion
1:00 - 1:15 Introductions
1:15 - 2:00 Project presentation 1 (30 minutes + 15 min QA) - David Lee - Clemson - 3D pattern environments using volumetric proxies.
2:00 - 2:45 Project Presentation 2 (30 minutes + 15 min QA) - P. Casey Mahon - Organic Abstractions (30 minutes + 15 min QA)
2:45 - 3:45 David Rutten - New work in GH (30 min QA)
3:45 - 4:30 Sameer Kumar AIA - KPF - Project presentation 3 (30 minutes + 15 min QA)
4:30 - 5:15 Chris Wilkins - Clemson - Urban Renewal and parametric urban development studies in Grasshopper.
5:15 - 6:00 David Rutten - Scripting in GH (15 min QA)
After 6:00 conversations may move down the street for more discussion.
If you would like to present your project at the Cloud please email: scottd@mcneel.com…
the Options. For example, if we look at the default settings in this order:
Population: Number of iterations / generation 50 - Galapagos tries 50 slider positions each generation. When it finishes 50, it looks at the results and takes from the best results based on your fitness.
Initial Boost: Factor for the first generation 2. You want to ensure Galapagos sees as much of the solution space as possible in order to not miss any potential solutions. The first generation is multiplied by this factor. If Population is 50, the first generation will be 50x2 = 100 slider positions.
Maintain and Inbreeding deal with what you keep between Generations.
Max Stagnant: Number of generations to try AFTER finding a better solution 50. If Galapagos finds a great solution in Generation 2 (Gen 0 = 100 tries, Gen 1 = 50 tries, Gen 2 = 50 tries) it will go another 50 Generations (50x50 tries) before it stops to ensure it did not miss anything.
Your solution space consists of 11 options, which is much less than any of the other parameters are suggesting. Galapagos flails wildly in your case because you told it to. You told it to try 50x50(+50 for initial boost) number of times to find the best value.
Hence why I do not think this is the best option. You said it, this is not an optimization problem. If it is not an optimization problem, why use a genetic algorithm solver which is predominantly used for optimizing parameters?
I wouldn't necessarily want to see the definition, I'm more curious about the data. For example, can you send the data for 10 structural members and some load cases? (again, I could be entirely oversimplifying it).
In any case, I changed Max. Stagnant to 5, Population to 11. So Galapagos will stop (5x11)+11 tries AFTER the best solution is found. It found the solution pretty quickly.…
Added by Luis Fraguada at 6:07am on September 7, 2016
s meios acadêmicos e profissionais do Estado de Santa Catarina em parceira com a Escola de Design ELISAVA de Barcelona.
Metodologia: Mediante um exercício prático os participantes poderão ter em primeira mão uma aproximação às técnicas mais avançadas de design e fabricação digital.
Web: http://santacatarina.elisava.net/
e-mail: secretaria@sc.asbea.org.br
As atividades estão divididas em 3 etapas.
1ª etapa: Roadshow (Ciclo de Conferencias)
Palestrantes:
Affonso Orciuoli, arquiteto, professor da Escola de Design ELISAVA de Barcelona, Univesitat Ramon Llullp.d. As conferencias do Prof. Orciuoli serão através de videoconferência desde Espanha
Regiane Pupo, arquiteta, professora da UFSC, Florianópolis
As conferencias da Prof. Pupo são presenciais.
Datas:
Lages 01/11Chapecó 03/11Caçador 04/11Criciúma 07/11Baln. Camboriú 08/11Blumenau 09/11Joinville 10/11Florianópolis 11/11
Horário: 18:00 horas
Conferencia: Arquiteturas disruptivas. Design e fabricação na era digital.
Palestrante: Prof. Arq. Affonso Orciuoli | Professor ELISAVA | Barcelona
2ª etapa: Curso on-line de Rhinoceros
Durante o Roadshow será apresentado o curso on-line de Rhinoceros (http://www.rhino3d.com/).
Entre 01 e 22 de novembro serão subministrados tutoriais a todos os estudantes e professores participantes, a título de se prepararem para o workshop, ver sessão ”downloads”
3ª etapa: Workshop E-luminárias
Entre 23 e 27 de novembro de 2011, das 8:00 às 18:00 h (10 horas por dia)
Workshop Internacional (50 horas)
Diretor: Affonso Orciuoli
Professores: Regiane Pupo | Ernesto BuenoLocal: InovaLab | Sapiens Parque | Florianópolis | Santa CatarinaInvestimento: R$ 150 (estudantes) e R$ 300 (professores & profissionais)Vagas: 50Obs.: Materiais para a fabricação incluídos.
Objetivo: reunidos em grupos de 3 participantes, se desenvolverá um projeto completo de uma luminária, utilizando plataforma CAD. Posteriormente os participantes, com a ajuda dos instrutores, deverão preparar os arquivos para a fabricação na máquina fresadora e laser. Por último as luminárias serão montadas e expostas em conjunto.
Cada participante deverá trazer um laptop com os programas instalados (“demos” do Rhinoceros, RhinoNEST, outros programas de CAD também poderão ser utilizados). Todos estes programas estarão disponíveis para serem baixados a partir do site da Escola de Design ELISAVA de Barcelona.
Equipamentos presentes no workshop e à disposição dos participantes:
Máquina CNC tipo fresadora de 3 eixos
Máquina de corte a laser
Máquina de impressão 3D (a título de demonstração)…
example 10.5 is exactly halfway or at 50%, 12 is at 200%, 5 is at -500%. If you were to remap these values into the other domain, their percentages ought to remain the same, ie.:
10.5 = 50% becomes 0 (because 0 halfway -100 to 100)
12 = 200% becomes 300
5 = -500% becomes -1100
The most common use of Remap Numbers is to change a set of measurements to be within a given goal domain. For example if you measure brightnesses using the Image Sampler, you get values between 0.0 (black) and 1.0 (white). However these brightnesses are supposed to control rotational angles between 10 and 45 degrees. Thus, you use a Remap component with the source domain (0.0 to 1.0) and the target domain (10 to 45).…
icture you can see what I mean, this is just with randome reduce, it should be like this:
->If the last object is (1) then is a 50% chance that the next one is also (1)
-->If the last two objects are (1) then is a 40% chance that the next one is also (1)
--->If the last three objects are (1) then is a 30% chance that the next one is also (1)
---->If the last four objects are (1) then the next object must be (2)
->If the last object is (2) then is a 50% chance that the next one is also (2)
-->If the last two objects are (2) then is a 30% chance that the next one is also (2)
--->If the last three objects are (2) then is a 10% chance that the next one is also (2)
---->If the last four objects are (2) then the next object must be (1)
It would be nice if it is possible to change the number how many objects should be tested and the percent values.
Has anybody an idea how I can do this?
Best Regards
…
omponent.I need a little help to obtain a preview of a sub-set of these 50 items, via GH components, without using Rhino command "selection" because the items may intersect each other.eg I'd like a preview of items defined in rows #1 and #2. Then I'd like a preview of items defined in rows #3 and #4, ... and so on ...till rows 9 and 10.
Is it possible obtain these different sub-sets via GH components? managing a slider? the "cull" component?
My following target is to bake separately these sub-sets and copy them in different layers.See the attachment. Thanks.…
: C = 100-200
Animation start with A=1, B=50 and C goes from 100-200 : then A=1, B=51 and C = 100-200 and once B gets to 600, A turns to 2... and so forth
-Khizer…