p;biw=1680&bih=925&tbm=isch&tbnid=UQXK-STjeJrGhM:&imgrefurl=http://www.grasshopper3d.com/forum/topics/sinusoidal-facade&docid=XRgBzjBowOStWM&imgurl=http://storage.ning.com/topology/rest/1.0/file/get/2768634805?profile=original&w=1805&h=727&ei=itp3UbHLCvDs0gWy-oGQCA&zoom=1&ved=1t:3588,r:0,s:0,i:80&iact=rc&dur=487&page=1&tbnh=141&tbnw=340&start=0&ndsp=28&tx=217&ty=36
But somehow, it doesn't seem to work when i do the same.. does anyone know why?
Regards, Rutger…
) Course Fee: Professional EUR 825,- (+VAT), Student EUR 415,- (+VAT)
Led by plug-in developer and structural engineer Clemens Preisinger, along with Zeynep Aksoz and Matthew Tam from the expert Karamba3D team, this three-day workshop will focus on methods of setting up structural systems in the parametric environment of Grasshopper. The participants will be guided through the basics of analyzing and interpreting structural models, to optimization processes, and how to integrate Karamba3D into C# scripts.
This workshop is aimed towards beginner to intermediate users of Karamba3D. However, advanced users are also encouraged to apply. It is open to both professional and academic users. For beginner users of Rhino and Grasshopper, there will be an optional introductory course one day before the Karamba3D course.
Karamba3D 1is a parametric structural engineering tool which provides accurate analysis of spatial trusses, frames, and shells. Karamba3D is fully embedded in the parametric design environment of Grasshopper, a plug-in for the 3D modeling tool Rhinoceros. This makes it easy to combine parameterized geometric models, finite element calculations, and optimization algorithms like Galapagos.
Course Outline
Introduction and presentation of project examples
Optimization of cross sections of line-based and surface-based elements
Geometric optimization
Topological optimization
Structural performance informed form finding
Understanding analysis algorithms embedded in Karamba3D and visualizing results
Complex workflow processes in Rhino, Grasshopper, and Karamba3D
Places are limited to a maximum of 10 participants with limited educational places. A minimum of 4 participants is required for the workshop to take place. The workshop will be canceled if this quota is not filled by October 28. The workshop will be taught in English.
Course Requirements
Basic Rhino and Grasshopper knowledge is recommended. An introductory course is offered.
No knowledge of Karamba3D is needed. Participants should bring their own laptops with Grasshopper and either Rhino 5 or Rhino 6 installed. You can download a 90-day trial version of Rhino. Karamba3D ½ year licenses for non-commercial use will be provided to all participants.
Please register here……
Added by Matthew Tam at 6:38am on September 13, 2019
iders that control the total amount ( U&V) and the branches are formed by picking i.e the U and the points will then be the number on the V slider...
I realize that this question may have been asked before, but I cannot solve it with the path mapper and it seems so easy
M…
vas
Closing and creating a new file (memory resets when this is done) @4:00, 5:57, 6:53
System slow down and crashes @ 8:16 (takes 5 minutes to end the process - perhaps not the most entertaining movie to watch until the end - a good point to turn the kettle on)…
es, and these sum up to ~7100. I shall see if I can post a screenshot of everything.
I have no idea how to script that, sorry. But maybe could be a more optimized workflow - just feed one object B at a time, maybe that makes the math behind it more relaxed.
I should emphasize that it is not about 'fault' in the operation, and rather a very slow calculation - the difference does eventually get calculated with no errors whatsoever, the only problem is the unbelievably inefficient, or unproductive time it takes to do so. I think the problem could be the proportion of the objects, one very large, and one very small (28 / 6 / .1cm vs. .05cm), maybe that does something funky to the bounding box calls, I have no idea. And one other thing I suspect is the number of faces in the object, as I progress to let's say 700 cuts, I have then created 700*4 new faces in the object. I don't know if this is indeed something of concern. …
Added by DumDaDaDum at 7:03am on September 29, 2011
Singapore
DESCRIPTION : Two seemingly contrasting ideas combined will turn into something remarkably new. This resulted in the idea of Digital Craftsmanship – connecting the digital technology with artisans’ craftsmanship. Singapore is uniquely positioned to benefit from both – the latest technology in digital fabrication, as well as the beautiful and rich culture of ASEAN craftsmanship in countries like Indonesia, Thailand and Vietnam. The NUS digital fabrication in architecture studio introduces advanced design to fabrication flow, such as 3D modeling, simulation, digital fabrication and physical assembly and testing. We discover existence of data flow distinguishes digital and conventional craftsmanship, prolonging the interface between human and object. The result is very encouraging –the Digital Craftsmanship approach could lead innovative yet regionally relevant contemporary architectural design, complex yet controlled functional geometry and aesthetics. We hope this exhibition could raise our awareness about preserving the precious wisdom of traditional craftsmanship alongside with advanced fabrication technologies in architecture.
OPENING : 24 August 2012, 7pm – 9pm, RSVP to Yi Hui (dfabstudio@gmail.com) EXHIBITION : 25 – 28 August 2012 (10 am – 9 pm, daily, free admission) VENUE : Promenade, Level 8, National Library Building, 100 Victoria Street, Singapore
PROJECT TEAM : Shinya Okuda (Studio Tutor), Liane Ee Rulian, Hiral Ashvin Desai, Lee Teng Teng Cheryl, Ian Wong Hengjie, Teo Lin Lin, Xu Xiaoqi, Liu Zhichao, Diptarshi Dev, Tan Zi Hua, Teh Yi Hui, Joshua Loh.
Organized by Digital Fabrication in Architecture Studio, NUS.…