hours/day (40 hours) Future University in Egypt (FUE) Department of Continuing Education(DCE) ________________________________________ The aim of this workshop is to teach participants how to create a parametric housing model which can be associated with day lighting and thermal analysis. Moreover, participant will get the opportunity to develop passively design envelope. The workshop is highly interactive giving different examples that develop a strong understanding of Grasshopper Workflow & different passive strategies using the performance simulation tool (DIVA). The participants are divided into groups to study the different orientations and the final outcomes of each group are presented thus concluding the recommendation strategies for each orientation. At the end of the workshop, each participant will receive a Certificate of Attendance from Future University in Egypt. Target Participants: ‐Professional architects. ‐Master and PhD students. ‐ Last year of undergraduate students (ONLY). Prerequisite: -None, however, a basic Grasshopper & Rhinoceros knowledge is preferred. Used Software:(will be provided by the instructor). ‐Rhino 5 SR 3 ‐Grasshopper 0.90066 ‐DIVA Version 2.1.0.3 ________________________________________ Workshop Outline: 1st DAY (Wednesday 29 Jan): 1.Introduction to passive design strategies (efficient envelope) 2.Introduction to parametric design logic 2nd DAY (Thursday 30 Jan) : 1.Developing technical tools based on reverse engineering technology. 2.Examples for parametric facade design 3rd DAY (Saturday 1 Feb): 1.Enforcing the parametric logics with Grasshopper 2.Introducing the performance simulation tool (DIVA) 4th DAY (Sunday 2 Feb): 1.Facade design using grasshopper ‐Studio work. 2.Associative techniques – Day lighting and thermal simulation 5th DAY (Monday 3 Feb): 1.Final optimization and final results 2.Group work presentation ________________________________________ Participants are required to bring their own laptops. To register: 1.Fill in the application form found in this link: https://docs.google.com/forms/d/18OrcwwDks5-vd0irZITC430bjMVb8I8pdw0i5OefyMg/viewform 2.Kindly pay the workshop fees at FUE DCE Admission or in the Bank account Number of participants is a minimum of 20 and a maximum of 24 ________________________________________ Workshop Trainers: Ayman Wagdy Mohamed Ibrahim Researcher at Sustainable Design research group | AUC Lecturer at Parametric design | AUC M.Sc. Architecture – Architecture and Building Technology| Politecnico Di Milano Haitham Salah Ali Mahmoud Teaching Assistant of Design course | AASTMT Head of design team | YBA Architect Principal and cofounder | Arkan Architect ________________________________________ For any questions or info please do not hesitate to contact us at : Mob. : 01003220017 - 01008551772 Email : Fue_ppd@outlook.com…
Added by ayman wagdy at 12:12pm on January 17, 2014
e mesh together and filling holes manually as the automatic meshrepair command didn't want to work for me.
The goal is to make the model into a Brep so I can cut waffle slices using this definitionhttp://www.grasshopper3d.com/forum/topics/a-solid-waffle-for-laser?id=2985220%3ATopic%3A57179&page=8#commentsMy problem is I have never done this before converting to surface from a mesh is proving to be quite difficult with such a detailed mesh (I have even reduced the mesh from the original) Is anyone able to give me some guidance to where to start. I have been searching for a solution for almost a week now. With a lot of trial and error I still have got nowhere. Most commands chew up too much memory or hang till I force kill the task. I have tried some Tsplines and Rhinosurf workflows with no luck, the online documentation that I have come across for these methods dont seem to go into enough detail for what I am looking for. The link to my model is here if someone could please have a quick look and give me some pointers.https://drive.google.com/a/monkers.com.au/file/d/0BzZQQ1vMJcL1R0Ntd2d4ZEsySGs/edit?usp=sharingThanks for your time.cheers.…
ed to loft between in a consecutive manner ie. between the 1st and 2nd line, between the 2nd and 3rd line, between the 3rd and 4th line etc.
Thus I believe if I can manipulate the list of 10 planar curves into something that looks like the following, I could plug that list into a loft component to create 10 develop-able strips for my pipe!0 | Planar Curve1 | Planar Curve______________1 | Planar Curve2 | Planar Curve______________2 | Planar Curve3 | Planar Curve..._____________8 | Planar Curve9 | Planar CurveBelow are some screen grabs of what I've done so far, if there are better ways to go about this I'm also interested in that.
Cheers, ScottN.B. I know this script functions perfectly fine, I'd just like a script that is not as heavy and can be applied to larger, more complex geometries.
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his fast-moving class covers most of Rhino's functionality, including the most advanced surfacing commands. In addition, this workshop will give students a functional understanding of Grasshopper and Parametric design. This will allow them to build on this understanding into more advanced projects of their own including design optimization with RhinoNest and creating their models on a laser machine.
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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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hole new realm?
This Parametric Design Webinar will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros.
FULL BEGINNER TO ADVANCED - 4 Days / 8 hours in total
Start 12.11.2022
Live Webinar Time: 10:00 - 12:00 CET
TIME ZONE: CET
WEBINAR Language: ENGLISH
CERTIFICATE: Participants will be given a certificate of participation at the end of the WEBINAR
WEBINAR LINK: WEBINAR invitation link will be sent to all participants after registration via private Email
Kindly reserve your Tickets here:
https://billetto.eu/e/parametric-design-live-webinar-beginner-to-advanced-Tickets-738970…
deform into rhombic dedocahedrons when they reach equilibrium.
http://mathworld.wolfram.com/CubicClosePacking.html
I was trying to model sphere lattice constrained within a boundary box. When inflated, they would not intersect with each other; they would stay in place; and would be malleable just enough to expand and fill in the gaps in between the spheres.
I started off with the help of this thread here(Thanks for those contributed!). As I understood, there was a bug in Kangaroo2. Solver can't handle more than one item plugged in. So I tried to understand David's Stasiuk's Script and adopted it with a few variations, please see gh file attached.
In the first 5 - I've used David Stasiuk's C# component-variable pressure (posted on June 9, 2015 at 12:25am): 'No. 4.5' being the most successful simulation so far(inflation value is kept very low so that they would not intersect);
although I realised I made some math mistake in setting the close packing grid.(could be checked by plugging voronoi3D to see if the area of the rhombic faces are regular)
No. 6-7 I tried with Kangaroo2 components.
After consulting my tutor(Andrei Jipa)'s help, I realised the following changes could be made:
- The definition posted by David on June 8, 2015 at 4:47pm with constant pressure would've worked better.
- Icosahedrons with WbCatmull(Quad divisions) would result in more even load distribution. With wbloop, vertices more concentrated at poles.
- Load in dir Z could be omitted. Andrei has suggested to use lengths(line) in Kangaroo 2 as 'pressure' instead. And I am trying to improve the grid; and maybe try with David's constant pressure definition. I will keep you guys posted of the progress!
I am new to the parametric world, comments/advice very much appreciated! :) Zhini
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ino:
Go to "Windows Control Panel", then "Programs and Features", then find "Rhinoceros 5 (64-bit)" and "Rhinoceros", select and "Repaire".
Permalink Reply by Heath on August 14, 2013 at 1:13pm
I got it to work, thanks.
Permalink Reply by Akche MacEshwa on August 22, 2013 at 8:20pm
Right click the .rhi file and open it with rhino execution wizard which is located in Rhino directory. Good luck.
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Added by Adam Donner at 5:38pm on September 19, 2013
hole new realm?
This Parametric Design Workshop will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros. The workshop will also include a hands on parametric project.
If you already know Grasshopper and would like to uplift your parametric knowledge, then you can choose option 2.
Option 1: General Workshop for Beginners - 16 hours: Start 04.03.2017
Option 2: Intensive Workshop for Intermediates - 8 hours: Start 18.03.2017 Kindly reserve your Tickets here: https://www.eventbrite.de/e/parametric-design-workshop-rhino-grasshopper-fablab-berlin-tickets-41814390969…
ole new realm?
This Parametric Design Workshop will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros. The workshop will also include a hands on parametric project.
If you already know Grasshopper and would like to uplift your parametric knowledge, then you can choose option 2.
Option 1: General Workshop for Beginners - 16 hours: Start 04.03.2017
Option 2: Intensive Workshop for Intermediates - 8 hours: Start 18.03.2017Kindly reserve your Tickets here:
https://billetto.eu/en/e/parametric-design-workshop-rhino-grasshopper-fablab-berlin-tickets-271310https://www.eventbrite.de/e/parametric-design-workshop-rhino-grasshopper-fablab-berlin-tickets-44292214205…