of radius of 3, 6, 12 and 18 to randomly populate the grid.
Where each circle has a proximity distance of its own and if any circles overlap / pass in that distance they are Culled (removed).
The Proximity distances of the circles are:
3 = 6
6 = 12
12 = 18
18 = 36
I want to Randomly populate the grid with the circles so that the rules are kept.
I really cant think how to go about this further from what I have done so far.
Any help is appreciated and if you need more info please ask.
NOTE
[This relates to my university project where the distances are Meters on a grid, and the circles are the columns radius. I've added a quick sketch to try and explain the principle of what I am trying to do]…
the missing places. Correct me if I am wrong but the missing 3D's created are actually randomly extruded (within given dimensions, 9 to 18 for this case). I changed the parameter from 9 to 18 to 20 to 30 and the building heights increased.
The purpose of the 3D was to use it for an outdoor CFD so I wanted the geometries up to a certain precision, hence I didn't go for the randomHeight option in the first place. It seems to me that when we open osmbuildings.org, OSM assigns a fixed default height for the buildings it doesn't have the height or no. of floors data tagged. What do you think?
Thanks again!!
Best Regards
Saket…
etc.
Group 2 - 1, 6, 11, 16, 21 etc.
Group 3 - 2, 7, 12, 17, 22 etc.
Group 4 - 3, 8, 13, 18, 23 etc.
Group 5 - 4, 9, 14, 19, 24 etc. "
except in data, the branches start at 0, so 'group 1' is branch 0
as for the order of your points, that depends on the input prior sorting...
yrs …
Writing simulation parameters...3. [2 of 8] No context surfaces...4. [3 of 8] Writing geometry...5. unsupported operand type(s) for +: 'str' and 'list'6. Failed to write Pelle_aperture000 to idf file7. unsupported operand type(s) for +: 'str' and 'list'8. Failed to write Pelle_aperture001 to idf file9. unsupported operand type(s) for +: 'str' and 'list'10. Failed to write Pelle_aperture002 to idf file11. [4 of 8] Writing Electric Load Center - Generator specifications ...12. [5 of 8] Writing materials and constructions...13. [6 of 8] Writing schedules...14. [7 of 8] Writing loads and ideal air system...15. [8 of 8] Writing outputs...16. ...... idf file is successfully written to : C:\Users\Personal\Desktop\TESI\x001\THOR\EnergyPlus\THOR.idf17. 18. Set runEnergyPlus to True!
or this
0. Current document units is in Meters1. Conversion to Meters will be applied = 1.0002. [1 of 8] Writing simulation parameters...3. [2 of 8] No context surfaces...4. [3 of 8] Writing geometry...5. Runtime error (MissingMemberException): 'hb_EPFenSurface' object has no attribute 'blindsMaterial'6. Traceback:line 1567, in main, "<string>"line 2134, in script
i think that i've same problem with my windows...any suggestion???
Thanks for all…
uhhh Dude you're sick, that's awesome, how are you doing it, with grashopper or just plain old Rhino? I'm going to have to replicate this. The parts have to fit a 18" x 32" laser cutter.
Hi Elisa, There are also couple of examples that shows who to use ray-tracing component for indoor/outdoor studies. Try 6, 17 and 18: https://app.box.com/files/0/f/1280832445
tivas.
Desde lo básico a sistemas complejos + documentación para fabricación.
Orientado a Diseñadores, Arquitectos, Artistas Multimedios y profesionales afines.
Objetivos específicos:
• Distinguir los conceptos principales del diseño paramétrico y su aplicación en entornos de modelación CAD. • Manejar la modelación paramétrica de sistemas geométricos simples y complejos en Grasshopper 3D. • Aplicar el conocimiento paramétrico en la creación de documentación para construcción y fabricación de un modelo desarrollado en Grasshopper 3D. Contenidos: Sesión 1. Introducción a la modelación paramétrica. Sesión 2. Elementos geométricos y sus propiedades. Sesión 3. Estructura de la información. Sesión 4. Condiciones de campos, grillas y atractores. Sesión 5. Panelización de elementos en superficie complejas. Sesión 6. Parametrización orientada a objetos. Sesión 7. Documentación paramétrica 1. Sesión 8. Documentación paramétrica 2. Sesión 9. Modelación avanzada y optimizaciones. Sesión 10. Profundización personal.
Fechas : Del 14 de Marzo al 13 de Abril de 2016
Modalidad : Presencial
Duración : 30 horas (10 sesiones)
Horario : Lunes y miércoles de 18:30 a 21:30 hrs.
Facultad : Escuela de Arquitectura
Pontificia Universidad Católica de Chile
…