elivering their latest workstation and graphics technology.
Intensive computing and exceptional graphics technology will deliver generative modeling and computing to its next level.
Participants will learn the ease of use of Grasshopper within Rhinoceros, so they could start creating their own generative design.
Who should attend:
1. Professionals in design and engineering industry who would like to gain more knowledge and productivity
2. Students who would like to extend their knowledge to the next level
3. Supporting IT who would like to provide even more efficient tools for engineers and designers
4. Engineering and Design Enthusiasts
Participants should send an email to fani@m3kom.co.id, to receive an invitation and its detail.
For further technical information about the event, feel free to ask Rendy (tihe.tihe@gmail.com).
This event will consist of the sneak preview of most anticipated real-time rendering for Rhinoceros: V-Ray RT for Rhino.
Hopefully, this will also initiate the establishment of Indonesia's generative modeling designers community in Indonesia.…
this workshop is to materialize a chair designed with help of generative algorithms via robotic fabrication. To design the form of the chair we will go through an intensive course of generative design techniques, k-means clustering, structural analysis and optimization done with the help of Anemone, Galapagos, Millipede and other plugins. Finally we will employ a 6-axis robot with custom tooling to fabricate the chair via robotic rod bending. No prior experience with Grasshopper or robotic fabrication is required, although basic knowledge in 3d modelling would be an asset. // APPLICATION The deadline for application is 13.03.2017 Apply by sending email titled ‘workshop_chair’ to workshops@aan1.net // INFO If you have any more questions check the www.aan1.net website or contact us with email workshops@aan1.net // FEE We have special pricing for students, as well as an early bird offer. Check the Eventbrite list to get more details. Please bear in mind that a limited amount of seats is available (minimum 8 people, maximum 16). ORGANIZERS: Maria Smigielska, Mateusz Zwierzycki, AAn+1 TUTORS: Maria Smigielska, Mateusz Zwierzycki PRICES: Early Bird Student 280 E Early Bird Pro 320 E Regular Student 300 E Regular Pro 350 E…
p 10 "Scripting Reality – Integrating 3D Point Clouds in parametric design workflows".
This research-based workshop will introduce participants to thegeometrical class of point clouds and ways to handle, manipulate, analyse and script with them. Participants will as well have the chance to get first-hand knowledge in the handling of 3d capturing devices and to link their outputs directly into a design environment.
The workshop poses especially the question of how changes on architectural scale can be tracked over time. Related algorithmic concepts and the Volvox plugin, allow for the first time to directly access and manipulate point clouds in a parametric design environment, will be introduced to the workshop participants. A 1:1 experiment on the ETH campus will provide a testbed. Participants will learn point cloud processing and learn to track objects solely on the base of point cloud analysis, find deviations against the planned and visualise the results.
The workshop is led by Mateusz Zwierzycki, Martin Tamke and Henrik Leander Evers. FARO provides several 3d scanners with helical adapters and acccess to the FARO SDK for the workshop. The workshop is modestly priced with 160CHF.
register now.
http://www.aag2016.ch/workshop-10/
…
d object1. Traceback: line 96, in join, "c:\Program Files\Rhinoceros 5 (64-bit)\Plug-ins\IronPython\Lib\ntpath.py" line 102, in openStudioPath, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\config.py" line 247, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\config.py" line 2, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\command\_commandbase.py" line 2, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\command\gendaymtx.py" line 3, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\command\__init__.py" line 7, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\radiance\__init__.py" line 3, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\_hbanalysissurface.py" line 1, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\hbsurface.py" line 1, in <module>, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee_grasshopper\hbsurface.py" line 44, in script line 53, in __init__, "C:\Users\Jurrijn\AppData\Roaming\McNeel\Rhinoceros\5.0\scripts\honeybee\config.py"
It seems a problem with python.. Thanks in advance for any help.…
(twice the amount of lines, it'll take twice as long).
If you nest two loops you're iterating over each line, and then you iterate again over each line. So when you now have twice as many lines, it takes four times as long O(N*N) or O(N²)
With an octree you can reduce the second iteration from O(N) to O(log N). The reason octrees are fast is because they allow you to quickly reject large amounts of lines in your set. Lines are no longer stored in a list, but rather in recursive spatial buckets. If we determine that a certain bucket is too far away to possibly yield any valid results, we can instantly skip all the lines in that buckets and any sub-buckets. If you're lucky, you can reject ~85% of the local data in every iteration, which means even large collections of lines are reduced to only a few potential candidates very quickly.
Thinking about this I'm actually not sure now whether lookup in my Tree3d class is O(log N) or O(sqrt N), but the basic principle holds. The reason the resulting algorithm is O(N * log N) is because the outer loop is still O(N) but the inner loop is now replaced with an O(log N) searcher, so you end up with O(N) * O(log N) = O(N log N)
At least that's how I think it works, computational theory has never been my strong suit.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 4:55pm on November 29, 2012
p; 3D Urban ModelingOn the topography subject I get the next message: "One or more boundaries may be outside the bounds of the topo dataset" I'm not sure if it's the .IMG file I'm loading since I found so many IMG files nearing my polyline area (Miami Lat:26 Lon:-81 aprox.) or maybe my polygon doesn't match the topo area? I have no idea why it isn't working :(On the Shapefile subject, haven't been able to find a Building Height SHP File, so far have downloaded around 8 SHP files which only contain Polylines, my solution is to meanwhile randomize Z heights, but of course this data is not "technically" correct.P.S.: I've already tried all example links and also the ones posted by you and Benjamin in this video.Been strugling last few days, hope you can help me, thanks in advance!!…
Simpsons episode were Bart goes into a mall and in the time he goes in and out of a shop all others have been turned into Starbucks.
I personally don't like it but you can't say they are crushing all competitors because, as far as i know, all owners of those software packages voluntarily sold their property for a good price. I would actually be more worried that an antitrust lawsuit was filed against Autodesk.
For example, this is what happened with Rockefeller's Standard Oil:
The antitrust case against Standard Oil also seems absurd because its share of the petroleum products market had actually dropped significantly over the years. From a high of 88 percent in 1890, Standard Oil's market share had fallen to 64 percent by 1911, the year in which the US Supreme Court reaffirmed the lower court finding that Standard Oil was guilty of monopolizing the petroleum products industry.[32]
The court argued, in essence, that Standard Oil was a "large" company with many divisions, and if those divisions were in reality separate companies, there would be more competition. The court made no mention at all of the industry's economic performance; of supposed predatory pricing; of whether industry output had been restrained, as monopoly theory holds; or of any other economic factors relevant to determining harm to consumers. The mere fact that Standard Oil had organized some thirty separate divisions under one consolidated management structure (a trust) was sufficient reason to label it a monopoly and force the company to break up into a number of smaller units.
To economists, "predatory pricing" is theoretical nonsense and has no empirical validity, either.
In other words, the organizational structure that was responsible for the company's great efficiencies and decades-long price cutting and product improving was seriously damaged. Standard Oil became much less efficient as a result, to the benefit of its less efficient rivals and to the detriment of consumers.
From: http://mises.org/daily/2317
(Beware, that site is very ideologically charged)…
points within the bounds of the site boundary and use each location as an attractor point controlling a variable at each point in the grid (radius of a circle/height of a cube/colour based on a gradient etc.).This would be based on proximity to the attractor points with the effect of each attractor point essentially scaled by the percentage associated with it. For example a location with 88% visitor rates would have a more dramatic effect than a location with 26% visitor rates.
I've had a bit of a play around but can't seem to get beyond the point of what is shown in basic point attractor tutorials online. I'm definitely a novice.
Here's how I figured it would be done:
1) Create a grid of source points within a boundary curve.
2) Select 18 pre-defined attractor points.
2) Measure the distance between the source points and the attractor points.
3) Invert this data so that variables increase with proximity rather than decrease.
4) Give each of the attractor points a strength value from 1-100% based on the visitor rates.
5) Use the scaled data to control a variable at each of the source points.
6) Create some way to control the drop-off rate of the effect from each point.
It is at step 3 that I get completely lost.
I hope my description is clear. Any help would be greatly appreciated,
Adam
…
adrid/
http://www.24studiolab.com/#/
or write to:
24studiolab@gmail.com
Course will be variable (during the weekend or during the week) depending on the convenience of the assistants.
COURSE PROGRAMME (spanish)*
Rendimiento formal / Estructural
Galápagos, algoritmos genéticos
Kangaroo physics
Optimización mediante fuerzas fisicas
Form Finding
Surface Relaxation
Edición avanzada de malla
Isosurface and fractals surface
Karamba
Rendimiento energetico
Heliotrope / Ghowl
Geolocalización
Geco
Kangaroo shape optimization
* COURSE PROGRAMME may vary depending on the demand of the assistant
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Added by 24StudioLab at 2:10am on December 26, 2013