) 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
current designers and for future practitioners to follow. One of the strongest aspect that is prominent from this style is ‘geometry’. Arguably, there is nothing new about geometry and aesthetics forming the most prominent aspect of any style or era. The language of any style, in the long history of architecture, is visually defined by geometry or shape, beyond the principles that define the core of the style. In the distinguishable style of parametric architecture, geometry has played and is continuing to play an integral role. And with this fairly young style, there are many strings of myths and false notions associated.
The workshop aims to provide an insight to ‘parametric design’ and embedded logics behind it through a series of design explorations using Rhinoceros & Grasshopper platforms. An insight to Computational Design and its subsets of Parametric Design, Algorithmic Design, Generative Design and Evolutionary Design will be provided through presentations, technical sessions & studio work. A strong focus will be made on logics of design that can potentially be coded through a rational and parametric approach.
All rat[LAB]EDUCATION Workshops are tied up with a larger agenda of a buildable project for New Delhi, INDIA (Proposed for late 2015) & a publication scheduled for 2016. All participants will become a part of the growing EDUCATION network and will be exclusively invited for future events & studio activities.
// Methodology
Workshop has been structured to teach participants the use of Grasshopper® (Generative modelling plug-in for Rhinoceros) as a generative tool, and ways to integrate it with architectural processes. Throughout the use of visual scripting with Grasshopper participants will learn how to build and manage parametric data structures (from simple lists to complex data trees) and to develop data driven geometries & forms. No previous knowledge of Grasshopper is required, but a basic knowledge of Rhino modelling is preferred.
For further details: www.rat-lab.org…
up structural systems in the parametric environment of Grasshopper. Participants will be guided through the basics of analysing and interpreting structural models, to optimisation processes and how to integrate Karamba3d into C# scripts.
This workshop is aimed towards beginner to intermediate users of Karamba however advanced users are also encouraged to apply. It is open to both professional and academic users.
Course Fee:
Professional EUR 750 (+VAT)
Educational EUR 375 (+VAT)
Course Outline
Introduction & 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 Karamba and visualising results
Complex Workflow processes in Rhino3d, Grasshopper3d and Karamba3d
Places are limited to a maximum of 10 participants with limited educational places. A minimum of 4 places are required for the workshop to take place.
The workshop will be cancelled should this quota not be filled by May 31st.
The workshop will be taught in English. Basic Rhino and Grasshopper knowledge is recommended. No knowledge of Karamba is needed.
Participants should bring their own laptops with either Rhino5/Rhino6 and Grasshopper3d installed. A 90 day trial version of Rhino can be downloaded from Rhino3d.
Karamba ½ year licenses for non-commercial use will be provided to all participants.
…
up structural systems in the parametric environment of Grasshopper. Participants will be guided through the basics of analysing and interpreting structural models, to optimisation processes and how to integrate Karamba3d into C# scripts.
This workshop is aimed towards beginner to intermediate users of Karamba however advanced users are also encouraged to apply. It is open to both professional and academic users.
Course Fee:
Professional EUR 750 (+VAT)
Student EUR 375 (+VAT)
Course Outline
Introduction & 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 Karamba and visualising results
Complex Workflow processes in Rhino3d, Grasshopper3d and Karamba3d
Places are limited to a maximum of 10 participants with limited educational places. A minimum of 4 places are required for the workshop to take place.
The workshop will be cancelled should this quota not be filled by October 15th.
The workshop will be taught in English. Basic Rhino and Grasshopper knowledge is recommended. No knowledge of Karamba is needed.
Participants should bring their own laptops with either Rhino5/Rhino6 and Grasshopper3d installed. A 90 day trial version of Rhino can be downloaded from Rhino3d.
Karamba ½ year licenses for non-commercial use will be provided to all participants.
…
int with rectangle + gene pool
Problem 3 (i did it in rhino) -I would like to arrange the rectangles next to each other and later I would like to optimize these on an area in size and shape. I have no idea yet. I uploaded the grasshopper script. I marked the problem in the script.
Maybe someone can have a look and give me feedback...THX!
I am very grateful for the help.
Thx, Alexander
…
ange’ for its 2016 cycle, as a starting point to investigate principles of natural formation processes and interpret them as innovative architectonic spaces. These concepts are carefully interwoven with spatial, performance-based, and structural criteria in order to create full-scale working prototypes.
The three-week long programme is formulated as a two-phase process. During the two-week initial phase, participants benefit from the unique atmosphere and facilities of AA’s London home. The second phase, lasting for a week, shifts to AA’s woodland site in Hooke Park and revolves around the robotic fabrication and assembly of a full-scale architectural intervention.
Prominent Features of the programme:
• Teaching team: Participants engage in an active learning environment where the large tutor to student ratio (5:1) allows for personalized tutorials and debates.
• Facilities: AA Digital Prototyping Lab (DPL) offers laser cutting, CNC milling, and 3d printing facilities. The facilities at AA Hooke Park allow for the fabrication of one-to-one scale prototypes with a 3-axis CNC router, various woodworking power tools, and robotic fabrication.
• Computational skills: The toolset of Summer DLAB includes but is not limited to Rhinoceros, Processing, Grasshopper, and various analysis tools.
• Theoretical understanding: The dissemination of fundamental design techniques and relevant critical thinking methodologies through theoretical sessions and seminars forms one of the major goals of Summer DLAB.
• Professional awareness: Participants ranging from 2nd year students to PhD candidates and full-time professionals experience a highly-focused collaborative educational model which promotes research-based design and making.
• Robotic Fabrication: According to the specific agenda of each year, scaled working models are produced via advanced digital machining tools, followed by the fabrication of a one-to-one scale prototype with the Kuka KR150 robot.
• Lecture series: Taking advantage of its unique location, London, Summer DLAB creates a vibrant atmosphere with its intense lecture programme.
Eligibility: The workshop is open to architecture and design students and professionals worldwide.
Accreditation: Participants receive the AA Visiting School Certificate with the completion of the Programme.
Applications: The AA Visiting School requires a fee of £1900 per participant, which includes a £60 Visiting Membership fee. A deposit of £381 is required when registering with the online form. The deadline for applications is 11 July 2016. No portfolio or CV is required. Online application link:
https://www.aaschool.ac.uk/STUDY/ONLINEAPPLICATION/visitingApplication.php?schoolID=392
Return train tickets between London-Hooke Park, accommodation & food in Hooke Park, and materials from Digital Prototyping Lab (DPL) are included in the fees.
For inquiries, please contact:
elif.erdine@aaschool.ac.uk (Programme Director)
alexandros.kallegias@aaschool.ac.uk (Programme Director)
…
/ generative design methodologies and large scale digital fabrication tools. Concepts of natural formations, emergence, differentiation, and complexity shape the theoretical framework of this investigation.The programme is formulated as a two-phase process. During the initial phase participants benefit from the unique atmosphere of AA’s London home. The second phase shifts to AA Hooke Park and revolves around the fabrication and assembly of a full-scale architectural intervention.
Prominent Features of the workshop
Teaching team: Summer DLAB tutors are selected from recent graduates / current tutors at the AA.
Facilities: AA London houses cutting-edge facilities with digital fabrication techniques. The facilities at AA Hooke Park allow for the fabrication of 1-1 scale prototypes.
Computational skills: The toolset of Summer DLAB includes but is not limited to Rhinoceros, Processing, and Grasshopper.
Theoretical understanding: The dissemination of fundamental design techniques through theoretical sessions forms one of the major goals.
Professional awareness: Summer DLAB performs as a simulation of the professional environment due the priority given to team-based design approach.
Fabrication: According to the specific agenda of each year, a one-to-one scale prototype is fabricated and assembled by design teams.
Lecture series: Taking advantage of its unique location, London, Summer DLAB creates a vibrant atmosphere with its intense lecture programme.
Fees
The AA Visiting School requires a fee of £1900 per participant, which includes a £60 Visiting Membership fee. Train tickets between London-Hooke Park, accommodation & food in Hooke Park, and materials from Digital Prototyping Lab (DPL) are included in the fees.
Discounts
The AA offers discounts for participants wishing to apply as a group. Please contact: visitingschool@aaschool.ac.uk
Applications
Online application can be reached from:
https://www.aaschool.ac.uk/STUDY/ONLINEAPPLICATION/visitingApplication.php?schoolID=271
A CV / portfolio is not required. The deadline for applications is 14 July 2014.
More information can be reached from:
https://www.aaschool.ac.uk/STUDY/VISITING/summerdlab
http://summerdlab.aaschool.ac.uk/
Contact details:
visitingschool@aaschool.ac.uk…
proxy). However I decided to use the Human plug-in and scatter them as block instances, this allows me to add some reference lines in a different layer to have a better visual reference of the proxies, and have a lighter work environment in Rhino. (If you have the blocks on a layer and the proxies inside in a different layer, the proxies will render even if their layer is off and they are not showing in the viewport)
The definition has two parts: the bottom part scatters 3 grass primitives on a circle surface and is mostly an updated version of Manuel's definition, I hope he doesn't mind (you can replace the circle with any surface if you want a small patch of grass), you then bake this geometry, create one or several proxies in Rhino and create the blocks; the top part scatters a block on either a Surface, Brep or Mesh.
The definition populates the base surface/brep/mesh with points, then offsets the edges with the circle radius and pulls the points outside that boundary to it, so the circles don't fall outside the surface. (this part was the one that gave most troubles and it still fails sometimes, maybe someone could help me with that)
It also autoflips the normals if they're not up, and aligns the X axis of the target planes to a set direction (so you can have some wind or gravity effect if you want).
I used, and you probably need to make it work: Rhino 5 sr11 64bits, V-ray 2.0, grasshopper 0.9.0076, and Human (3-17-2014)
In my examples I scattered 3 blocks each with its own material, but you can have proxies with multiple materials.
If you make your own grass primitives don't forget to map the textures before scattering.
I'm posting some example renders and sharing the vray materials and proxies I used (I was experimenting with vray2sidedmats and a second diffuse layer with yellow noise mapped to world coordinates)
I'd like some help to get some cooler and different ideas for grass materials and proxies.
If you get some bugs let me know...
Eduardo
…
Added by Eduardo A at 11:54am on September 14, 2015
y don't know anyone who could help me learn this tool.
My ultimate goal is to achieve a lattice structure (for further 3d printing) of predesigned line cells filling the brep that can be modified with a use of attractor points. By closed structure I mean additional lines connecting the endings of struts trimmed with a brep. Ideally I wanted it to change desity (more smaller cells around attractor) and I tried with 'box packing" but without any good results (also the tool Intrallatice - btw very helpful and great tool - doesn't support any flexibility with grid). Maybe it would be easier to acheive if the structure was made from scratch but unfortunately I'm not really sure how to do that.
So after some time I decided to focus on struts thickness controlled by the distance from the attractor point (seems easier haha). I made a try with wireframe produced by Intralattice and both a mesh component from Intrallatice (1) and with a ExoWireframe(2)but they doesn't produce as satisfactory results as ExoWireframe on Proximity3D from random points (3) (which sadly is not what I'm trying to acheive). The scalling effect is not really visible and there are some problems with the mesh generated. ( images attached)
123
Maybe you could have a look at my files and at least tell me what is possibly going wrong? Honestly, I start to feel hopeless and it's such an important project for me.
P.S. It's my first question here but thank you all for contributing to this community, I've learned so much already by reading other discussions :)
…
ag gets pinned in Temeswar)
7 days of training + exhibition and party!
During the the first 3 days we have prepared a training course where the participants will get acquainted with the basic notions and elementary algorithms in Grasshopper. Within the following 4 days you will have to apply your general knowledge in order to design and produce a 1:1 mockup of the digital model.
It’s going to be massive!
_ORGANIZERS AND TUTORS:
F-O-R
Oana Simionescu
Alex Cozma
DtArchLab + Idz
Ionut Anton
Dana Tanase
T_A_I
Irina Bogdan
_HOSTS:
EduKube Multimedia Center
Find out how to apply here and make sure to keep an eye on our blog. You cand also keep yourself updated by following our facebook page.
See you at EduKube, Timisoara on the 16th of July!
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