ly independently. The reason I ask is that I think it would be very appealing to be able to develop geometry producing definitions withing GH and Rhino but be able to spin off little self contained apps that could take in data, do calcs, and spit geometry files out the other side!
Matt…
on?). I've been able to install the last one (9.2), now I've got problem in finding the UWG installer (can't find a "download" button on the page you linked). I contacted last week the developer because on the download page it was saying "UWG code available upon request" but I still didn't get any answer...
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(http://www.food4rhino.com/app/quelea-agent-based-design-grasshopper) take like 40 seconds when the toggle activates to go from one end of the ramp to another.
With proximity 3d i'm analyzing each instance the agents are closer than x units. In picture 3 we can see that in 212 instances the agent are closer than those x units.
Finally all the genes that controll the ramps are connected to the G of octopus component and one of the conflicting objectives connected to the O of octopus component is the number of instance quelea agents get close.
So the thing I need is to iterate the ramps controling the genes with octopus but activating the boolean toggle (quelea run) each time the ramps are modified so the agents take 40 seconds to perambulate the environment, analyze the instance they get close and let octopus iterate again searching for a optimized environment.
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ng/details/app-service/
Microsoft will give you a customized domain, such as http://yoursite.azurewebsites.net, and then after you uploaded all images, you can access files by http://yoursite.azurewebsites.net/yourfolder/image.jpg, and you can use this link for DesignExplorer.
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http://www.food4rhino.com/app/horster-camera-control-grasshopper
I think lady bug might gave a similar component too. Or you can try to find if someone has made a C# or VB component. http://developer.rhino3d.com/api/RhinoCommonWin/html/P_Rhino_Displa...…
r even a geometry.
We want to develop open source architecture, and be able to reuse easily open source elements of projects shared by the community.
We are interested to display the 3D files in the browser, thanks to connection with external services like http://beta.speckle.xyz or others though at the moment it is not yet available.
When I discovered the grasshoper forum, I liked the fact that people talk very openly about their modelling problems and share definition files...
But I think Bricks could be a complementary publication mode, to find in a glance an element with all its geometry and a link back to the forum post to join the discussion.
Indeed when I work as an architect, I have not always the time to browse a forum with all its discussions to find a suitable element for my project.
I've quickly reposted 2-3 forums posts to test it out.
I would love to have your feedbacks on this new way of publishing grasshoper definition files and more globally 3d reusable geometries.
Here you can see a single definition or the list of definitions that can be classified at the left thanks to custom categories.
If you create an account and upload a few definitions and 3d images and files, you could also tell us, what you think of this process.
Sébastien
www.twitter.com/sebastien_lucas…
.
This video shows a brief introduction of FlexHopper's background and explains how to simulate a cloth of approx. 50000 springs, acting under wind an colliding with a sphere. Tuning the solver options is also mentioned.
FlexHopper is constantly maintained and developed open source, here:
https://github.com/HeinzBenjamin/FlexCLI
The user's software package can be downloaded here:
http://food4rhino.com/app/flexhopper
Contact me at:
flexhopper@felbrich.com
Special thanks to Long Nguyen for constant advice and support.…
onstrates the following:
1. The definition's functionality employing HumanUI for the custom user interface.
2. The evaluation of the definition's ability to handle different point cloud data sets.
3. Video reports with the definition's results, animating subsequent per deviation step frames.
This definition calculates best fitting plane deviations. The number of manual set parameters has been minimized to two the facade per World UCS axis selection and the search width. This defines a box, which is used to crop protruding architectural details, which do not contribute to the analysis, but also ensures that large deformations are included in the calculation.
For the automation of the vertical and horizontal sections creation, the analyzed cloud is clustered, according to user defined number of 2d grid cells. The deviations corresponding to each cell are averaged in mean and median mode.
The process is displayed mostly in real time, with some speed up in some parts. Too long calculations have been omitted during video edit. The setup is responsive and benchmarks show that changing between dense point cloud data sets and facades is pretty quick (6.5-7.5M points, 25-45 deviation steps, 44x22 clusters), updates are calculated in acceptable timings (3-6 minutes).
I would like to thank Heumann A. and Zwierzycki M. who provided direct support with HumanUI and Volvox. Also Grasshopper3d forum users Maher S. and Segeren P., who contributed with Rhino viewport manipulation scripts.
More on Volvox:
http://papers.cumincad.org/cgi-bin/works/Show?_id=ecaade2016_171&sort=DEFAULT&search=ecaade%20volvox&hits=2629
http://www.food4rhino.com/app/volvox
http://duraark.eu/
HumanUI:
http://www.food4rhino.com/app/human-ui?page=1&ufh=&etx=…