ose space to make the louver look dense at some part.
Here' my method toward those space creating.
First, i create a numeric combination, so i got 3,9,15,30.
Second, i repeated the data until the length i want, and jitter them. Here's what i get:
30,3,9,3,15,9,30,30,15,3,3,15,30,9,3,3,15,3,3,9,9,3,15
Actually what i`m trying to achieve shown below:
3,9,3,3,30,3,15,9,15,30,30,15,30,3,9,15,9,3,3,15,3,9,3
My idea is, to make the center part look no so dense compare to others part, somehow
it's no a absolute looking in the final. What i mean is, maybe more [30] like 80% drop at the center part, 80% of [3] drop at the start and the end, meanwhile the others 20% [3] and [30] appear to be random in whole series.
Last, i will weave this set with other set which stand of the dimensions of sticks.…
circles that can be populated (for each radius size) is set as an integer (or slider)
(ie. radius 1.5 = 10 , radius 3= 6, radius 6 = 6, radius 9=4)
Conditions are:
1) Each of the circle has a radius of influence,
Radius of influence = double the radius of the circle)
(3, 6, 12, 18)
2) Any overlapping circles in either: Radius of influence or the Circles are removed so that
No circles overlap.
3) There must also be 4 circles set at the corner points of the grid - These must be circles with a radius of 3 or 6
If you can do that I will be amazed as i've been trying for weeks! :(
Ive attached a sketch of what im looking for…
he organizers of the webinar have generously decreased the cost for registration to just $10 so this is a good opportunity to get into the daylight components if you have been looking for one.You can register for the event by going to this address:https://attendee.gototraining.com/r/6086496514016899074Hope to see see you there!…
View-Master '09 en PUC Lo Contador.
Martes 20 de Mayo a las 13:30
Junto a Guillermo Parada mostraremos Rhinoceros y su modelamiento generativo y frabricación digital.
work. If you have been looking for an opportunity to get into a new part of the software or just want to get updated on the latest developments in a 90-minute presentation, then these webinars are for you. Starting this Thursday at 12:30 EST, the workshops will begin by covering basic Ladybug capabilities and will provide a survey of the latest community resources. Each Thursday, there will be another presentation covering progressively advanced topics. In total there will be 5 workshops, each of which you can register for by clicking below:
1 - Ladybug Climate Analysis - August 25th, 12:30 PM EST2 - Ladybug Facade + Shade Design - September 1st, 12:30 PM EST3 - Honeybee Energy, HVAC + Indoor Comfort Modeling - September 8th, 12:30 PM EST4 - Honeybee Daylight + Electric Light - September 15th, 12:30 PM EST5 - Honeybee THERM + WINDOW - September 22nd, 12:30 PM EST
Notably, workshops 2, 3, 4 and 5 will feature substantial coverage of capabilities that do not currently have tutorial videos. This includes new view analysis and tips and tricks for radiation studies in webinar 2, newly-released HVAC capabilities for webinar 3, electric lighting capabilities with webinar 4, and all of webinar 5 will be brand-new hot-off-the-press development! Hope that you can attend!…
ant. Like David reply the max stagnant will stop the evolutionary solver when it finds the number, that you've defined in Max stagnant, of genomes of equal fitness value. Notice that I'm always referring to the evolutionary solver and not to the shape annealing optimization process.
By my experience I find useful to increase the initial boost parameter. This will multiply the population of your first generation. There´re some studies and papers that suggest larger initial populations tend to produce more fast and yet accurate results with genetic algorithms. I can comproved that.
So, for settings (depending on your computer and the complexity of your model) I would say - Population 20 to 30; Initial boost 2 to 3. It will take about 2 a 3 days of computation time to converge with DIVA and Galapagos.
Best,
Luís
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