l, you can find examples of parametric design using LB/HB, specifically the HB component pollinator workflows.
In these examples, a GH component (data recorder) is used to locally store either input parameters or output values of different model configurations and transmit them to pollinator. I can imagine, depending on how your facade is made parametric in GH, that you could save those input parameters (e.g. angle of surfaces or height of extrusion) and output variables for each iteration (e.g. annual shading).
This a search process through the design space. I do think that if you would set up the model as such, then it would be ok that the components in the PV workflow resetted after each iteration as the results would be saved. There is even a really good visualization platform Mostapha has shared to go along pollinator.
You can find examples of these workflows in the forum, simply search pollinator. I have one that I shared somewhere as well, although it was doing rudimentary things it would help.
This design space approach is a bit different than the optimization approach utilizing components like galapagos. It gives you an idea of the space of possible different desings and allows you to compare alternatives. Plus, it usually allows me to avoid all these issues of losing results between components in the workflo.
I also find it very handy and much more efficient than simply allowing a component optimize everything for me. However, it can ncrease almost exponantially (or is it geometrically, I am always bad at this) to the range and number of your input parameters. So, if each square on the wall has more than a couple of input values for a a few input parameters, I would expect this to take a long time. Thankfully, the components in the workflow will let you know exactly how many iterations.
If this method is interesting to you and you follow it I would suggest a few things to hasten the process like utilizing only the squared above and on the sides of the PV panel, since the others won't really affect shading, selecting just 2 or 3 characteristic angles for extrusions, and perhaps approximating energy production through annual shading numbers (since I imagine they have an almost linear relationship).
I do hope that I have understood what you want to do and the above information helps. I'm sure Djordje will give much better feedback on the specifics of the PV workflow. I will try and keep this page saved so that I can send over the example once I'm back at work mid of next week.
Good luck!
Kind regards,
Theodore.
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st variety of papers (mostly related with LIDAR airborne sampled clouds) ... but ... hmm ... no code (other than some "abstract" algos that may (or may not) work). Reason? A very hot cake that one these days: from reverse engineering to DARPA founded future defense systems and up to cruse missiles pattern recognition algos.
The solution (obviously doable only via code) is the so called flat hard clustering ... were points are sampled into clusters based on the coPlanarity "rule". For large amounts recursive octTrees (an oriented box divided in 8 "partitions") subdivisions are used and then pts are processed in parallel (and then clusters are re-evaluated in order to "absorb" other clusters with same plane A,B,C,D vars etc etc).
See what's happening in a very carefully made test point collection:
3.7 ms and the "ideal" clustering (7 search loops VS the max 42M theoretical threshold):
Depending on the pts "preparation" ... a considerable more time/search loops is required ... and ... well ... also "valid" clusters (4 points and up) made:
So "ideally" speaking in your case:
1. Mesh faces center points (or alternatively: mesh vertices) are sampled into a pts collection .
2. Hard flat coPlanarity clustering is attempted yielding pts/planes in equivalent DataTrees.
3. Planar Breps are made with respect the planes (like the black things captured above) and sampled, say, into a breps List.
4. The method Brep[] solids = Brep.CreateSolid(breps); is used for attempting to create your desired "engulfing" brep. This method is very slow mind (other waaaay faster approaches also available).
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on excel (leaving 0,0 cell blank and also making sure there are no commas in the names ) Also let's call the names "ID"
2 - For the weight, use numbers ranging from 1 - 10 where 10 is the highest dependancy.
3 - Save the file as a Unicode CSV from excel
4 - Create another file on excel that has the attributes of your spaces, with the names of your spaces under the header ID (let's start with a simple "area" and "SNo" attribute but you could add more features for sorting and manipulating your data)
5 - Open Gephi and further open your matrix CSV file
5 - Import it as "," (comma delimited file) and make sure you check "matrix" for the data type
6 - Ensure the import is nondirectional as well (or Gephi adds silly arrows)
7 - Not gonna go into the gephi bit too much but select a force atlas layout and set the force to something high 1000 or 10000 depending on the size of the data and the attraction to a 1000th of that 1 or 10. Go to the data lab and import your excel with the attributes and append to your existing datasheet.
8 - Set the node attributes to use the area for the node size and color scheme to SNo
9 - Play around with all the layout options and finally go to your preview. Once you're happy with it, export it to a GDF graph file.
the GDF now has the coordinates of the circles and the diameters. as well as the edge connections.
I've written a very amateur script that converts this to GH geometry (below)
Hope this helps someone out, I'm still figuring out the gephi streaming API but I've only started with python about a month ago so might take a while to get there.
You can use the second half of the GDF files to also create dependency chord diagrams online as shown in the third image.
https://flourish.studio/2018/07/25/how-to-make-a-chord-diagram/
Cheers,
Sanjay
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ace
4 : Waterplane inertia
5 : "Finesse" f = WLL/(V^1/3) _ f stands for "frog" also, I think you use WLL^3/V in the English speaking world. I could have used WLL directly because the hull is set at the desired displacement before analysis - no use to test at random displacement indeed!
---First try on a 40' cruiser with jittery control points and bad volume repartition, a 30-seconds-work to a tee.
Red dots are original points, white mesh is current surface control polygon.
INPUT
After just a few steps I was able to find good candidates. Check the video.
OUTPUT
---Second try on an Open 60' hull. This was an rhino modeling exercise for students, so it's clean and realistic already, and I gave the same objective values as the original to see if it would fall on its feet. In this case I blocked the edges points.
I was amazed to see that It works!
INPUTOUTPUT
See the nice diagram! All points closest to the wet surface axis have good CP and position. On the left, very round hulls with poor stability (purple) and short WLL (big), on the right, wide hulls with higher water resistance (cyan) and longer WLL (small).
This is only one generation. with a few steps more it zooms in where the two sides meet. The two surfaces actually cross and I found very quickly an individual dominant on both wet surface and stability fronts.
I LIKE IT :)))
========
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ave bugs and your set-up may differ from what we tested. If you find any, please note bugs in the comments so we can fix them, thanks... Greg
The implementation is pretty logical, and open enough that you can use GH to easily link the robot toolpath and rail/table control for 1,2 and 3 axis linear rails and 1, 2 and 2x1, 1+2x1 etc. rotary tables. The 'Create External Axis' component is included so you can add you own geometry, or create other configurations.
Linear Rail: Plug External Axis into P on the robot.
The basic idea is that you instruct the rail to move the robot base plane either independently or relative to the toolpath. The later is preferable, so when you modify the toolpath the robot base position remains linked. For smooth toolpaths this works well, if you have a lot of back and forth movements, the whole robot will do that too, in which case a direct approach may suit you better, or some bracketing (we'll generate some examples for that soon).
Note: To keep the Linear Rail static while it is working on the Rotary Table, you can input a list of duplicate values to the Rail Axis input.
Rotary Table: Plug External Axis into E on the robot.
Control this through a list of angles in radians. The list of length values for the Linear Rail or the list of angles for the Rotary Table must be the same length as the number of Planes in the Path - as each value goes onto the same line of robot code.
There are two basic examples in the attached file:
Still to do:
- Integration with the IO Milling plugin.
- API calls.
- Tutorials for Create External Axis component.
For any questions, feature requests, bugs and example file requests - add your comments below... Please share you examples as well.
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Added by Gregory Epps to IO at 12:55pm on August 12, 2015
uld help me to optimize the script, so it works reliable.
At the end the script should work only by the input of the following informations:
- Top-Curve
- Bottom-Curve
- accuracy ( like poly-count)
- is the bowl an open or closed structure?
This is an example of a good result:
From here its probably the best if you open both attached files, so you understand the problems.
1. Bug:
Offset direction of the bottomcurve needs to be set up by hand sometimes.
The script uses "loft" on a bunch of 3pt Arcs to create transitions. Arc 3pts" needs a "Point B" on the offset of the bottom line. Sometimes the offset is inverted, so i need to change it by hand.
The rule to make it work correct is: "The offset of the bottom line goes into the same direction as the top line, but on the same hight as the bottom line."
How can i implement this in GH?
2. Bug:
The floor generation needs a lot of guessing the right index numbers of lists.
The script uses 2x "Deconstruct Brep" to find the actual bottom curve of the created transition Brep. "Patch" is used to create a floor from this curve.
If the bowl is an open structure, the script creates a line between the endpoints of the bottom curve to close it, in order to create a trimmed "Patch". But again, you have to set up the right Index Numbers by hand...
3. Bug:
If the bowl is an open structure and the endpoints of the top-line and the bottom-line are the same the lofting is not working. At the moment I use a script that finds double points in the list and deletes it.
But the the result is, that the loft is not starting at the beginning or the end. Here is an Image.
I have only a little experience in gh, but i really want to learn more.
Thank you all for your help!…
the following image of a hut.
I do not have experience using kangaroo to simulate forces, but I have made a test using multiple random components on a flat surface to fake the effect I'm going for. See image below.
The main issue I'm having is that the original file used for my test surface used box morph and the variable pipe command. Box morph is a bit touchy on a curved surface and it is not as elegant as I would like it to be (ie. I want all the hair diameters to be perfectly circular and uniform in size). Variable pipe also does not align the base of the hair with the existing surface, which means I have to offset the surface and then trim the excess of my pipe.....leading to heavy code and the file crashing.
So I'm trying to rebuild the "hairs" using a new method:
1) Subdivide the surface
2) Find the midpoint of each surface and then create a straight line that is perpendicular
3) Move a point along the on the straight line (between the start and end points) in the z direction, and then create a nurbs curve using this point and the start and end points
4) create a circle at the base of each crv, and then two more circles: one at the point in the middle point (I think I set it to .9) and the end of the curve
5) The problem: Now I am trying to sweep along these three circles and the nurbs curve to create a bent hair/pipe that is flush with the conic surface, but it does not work.
If someone can help that would be amazing. I've included my original surface test file and my new file where I am rebuilding using the sweep command. Below is a drawing of what I'm trying to achieve.
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th Galapagos and that I'm already accustomed with mass addition of the fitness. But this can't solve my current problem. I'll tried to explain the best I can.
Goal :
I have a tower façade to cover with modules. Each floor is divide with a radiant structural grid. Let say for the exemple that each floor is divide in 9 parts.
I want to put modules on each parts in order to cover the whole length.
The thing is that each floor is different (so finding the solution for one floor is not usefull). So we decide to use three kinds of module :
Module A is 793mm long.
Module B is 893mm long
Special module as a size between 0.714 and 0.872.
Each part of the façade must be completed with 0 to 10 Module A, 0 to 10 Module B and 2 Special Modules. Special module size can change for each part.
Solution for one part
I've realized a Galapagos solution which change these tree parameters (number of Module A, number of Module B and size of Special module) in order to minimize the difference between the total length of the modules and the length of the façade's part.
This is working very well.
Solution in Grasshopper :
Before runing Galapagos :
After runing Galapagos :
The problem
I've now to generalize the idea for the total number of parts. In my exemple now, I'll show 9 parts but the real number is several hundreds.
I changed the Number Sliders in Gene Pools. As for instance, the first Gene Pool contains 9 integers for the 9 numbers of Module A (one number for each part).
I used Mass Addition for the fitness.
And then you can guess the problem : basicaly, the solution is working. But it's very slow. I need so many time fort 9 parts that I can't imagine the time for the whole tower.
Why this ? Simply because Galapagos doesn't understand that the number of Modules A for the Part X has no influence on the Part Y. So it tries, for each part, to change every paramater (3x9 in my exemple) unless to change only the three paramaters wich affect each part.
Thus, with a large number (600-700) of parts, it's impossible to reach the beginning of a solution.
Is there someone here to help me ? Please ? :)
Thanks in anticipate,
Marc
Architect and structural engineer
http://parametriclab.eklablog.com/…
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DOSCASAS
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Importante:
Todos los niveles de experiencia son bienvenidos el único requisito es tener un entendimiento básico de los programas CAD y una actitud positiva hacia el aprendizaje de dichas herramientas. Necesitas llevar una laptop, nosotros te instalamos los programas de prueba.
Si planeas venir de fuera de la ciudad avísanos y te pondremos en contacto con otras personas que también vayan a hacerlo para en caso de desearlo puedan compartir su lugar de estancia.
Al participar en el workshop obtienes el 50 % de descuento en la licencia educacional Rhinoceros por medio de Rhino Chile.
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Si ya realizaste algún Workshop de Chidostudio tenes un 20% descuento en esta inscripción.
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El depósito mínimo para reservar la matrícula es del 50% el resto deberá ser cubierto el día del evento.
Una vez que el depósito se haya llevado a cabo el participante deberá enviar a este correobsas@chidostudio.com los siguientes datos:
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En cuanto recibamos la información immediatamente nos pondremos en contacto para especificar los pasos a seguir.
Contacto:
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Tel: (+54) 11-57268799
…
t. So here we go!
1. Honeybee is brown and not yellow [stupid!]...
As you probably remember Honeybee logo was initially yellow because of my ignorance about Honeybees. With the help of our Honeybee expert, Michalina, now the color is corrected. I promised her to update everyone about this. Below are photos of her working on the honeybee logo and the results of her study.
If you think I'm exaggerating by calling her a honeybee expert you better watch this video:
Thank you Michalina for the great work! :). I corrected the colors. No yellow anymore. The only yellow arrows represent sun rays and not the honeybee!
2. Yellow or brown, W[here]TH Honeybee is?
I know. It has been a long time after I posted the initial video and it is not fun at all to wait for a long time. Here is the good news. If you are following the Facebook page you probably now that the Daylighting components are almost ready.
Couple of friends from Grasshopper community and RADIANCE community has been helping me with testing/debugging the components. I still think/hope to release the daylighting components at some point in January before Ladybug gets one year old.
There have been multiple changes. I finally feel that the current version of Honeybee is simple enough for non-expert users to start running initial studies and flexible enough for advanced users to run advanced studies. I will post a video soon and walk you through different components.
I think I still need more time to modify the energy simulation components so they are not going to be part of the next release. Unfortunately, there are so many ways to set up and run a wrong energy simulation and I really don’t want to add one new GIGO app to the world of simulation. We already have enough of that. Moreover I’m still not quite happy with the workflow. Please bear with me for few more months and then we can all celebrate!
I recently tested the idea of connecting Grasshopper to OpenStudio by using OpenStudio API successfully. If nothing else, I really want to release the EnergyPlus components so I can concentrate on Grasshopper > OpenStudio development which I personally think is the best approach.
3. What about wind analysis?
I have been asked multiple times that if Ladybug will have a component for wind study. The short answer is YES! I have been working with EFRI-PULSE project during the last year to develop a free and open source web-based CFD simulation platform for outdoor analysis.
We had a very good progress so far and our rockstar Stefan recently presented the results of the work at the American Physical Society’s 66th annual DFD meeting and the results looks pretty convincing in comparison to measured data. Here is an image from the presentation. All the credits go to Stefan Gracik and EFRI-PULSE project.
The project will go live at some point next year and after that I will release the Butterfly which will let you prepare the model for the CFD simulation and send it to EFRI-PULSE project. I haven’t tried to run the simulations locally yet but I’m considering that as a further development. Here is how the component and the logo looks like right now.
4. Teaching resources
It has been almost 11 months from the first public release of Ladybug. I know that I didn't do a good job in providing enough tutorials/teaching materials and I know that I won’t be able to put something comprehensive together soon.
Fortunately, ladybug has been flying in multiple schools during the last year. Several design, engineering and consultant firms are using it and it has been thought in several workshops. As I checked with multiple of you, almost everyone told me that they will be happy to share their teaching materials; hence I started the teaching resources page. Please share your materials on the page. They can be in any format and any language. Thanks in advance!
I hope you enjoyed/are enjoying/will enjoy the longest night of the year. Happy Yalda!
Cheers,
-Mostapha
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