ature. By investigating the process of decay across various scales, we will formulate rules of generating decomposition as our design research area. These rules will evolve into design strategies for the creation and fabrication of a large-scale prototype. The design and fabrication process will be informed by the use of robotic fabrication techniques.
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 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.
• 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.
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 £1964 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 20 July 2015. No portfolio or CV is required. Online application link:
https://www.aaschool.ac.uk/STUDY/ONLINEAPPLICATION/visitingApplication.php?schoolID=325
Return train tickets between London-Hooke Park, accommodation & food in Hooke Park, and materials from Digital Prototyping Lab (DPL) are included in the fees.
Programme Directors:
Elif Erdine (AA Summer DLAB Director): elif.erdine@aaschool.ac.uk
Alexandros Kallegias (AA Summer DLAB Director): alexandros.Kallegias@aaschool.ac.uk
…
思った感じになりません。
balls の代わりにplanarカーブを直接入れてみましたがエラーが出ます。
ファンクションにしてみたところ、forループので作った数値が反映されていません。
ファンクションのインスタンス?を出力していないと思い上記のようにしましたがエラーが出てしまいます。
以上の事から自分の認識が正しいのかよくわからなくなりました・・・
python自体の深いところをわかっているわけではないので余計こんがらがりました。
そこで、for b in ballsはどのような条件または使い方であれば使えるのでしょうか?
そして、上記のように別のオブジェクトに対しての使い方はどのようにすればできるのでしょうか?
2:同じファンクション内のdist = rs.Distance(self.pos,b.pos)についてですが
この文章も for b in balls によってbはBallのインスタンスであると定義?されたためb.posがbの位置であると分かるのでしょうか?
pythonは定義しなくても動いてしまうのでどのような時に使えるのか文章見ただけではよくわかりません・・・
大変細かいことかもしれませんが、よりpythonをしっかりと理解するためにも、どなたかわかる方ご教授いただけると幸いです。…
work. As payload it uses protocol buffers which is optimised for transport and storage, and is Google's lingua franca for data. It would be great to use it for extensibility in grasshopper.
As gRPC supports both C# and Python I didn't think it would take many lines of code, but I have so far failed to put it together. Could anyone please describe to me best practice is in such case, and/or want to collaborate on the project? I can picture an open repo on gitHub or similar.
My main qustions are:
Should I use C# or Python?
Can I use Visual Studio 2017? All the VS 2015 installers have failed on my computer.
Do I have to use Visual Studio, or can I get away with the built-in editor? What are the main limitations using one over the other?
Can I build Rhino5 GH components in VS2017? I have built a Rhino 6 GH component from the McNeel template, but it did not work when opened in Rhino 5 GH (currently only R6 templates are available for VS2017).
Can Rhino 5's old ironPython deal with the newer gRPC package?
What's the best way to do rapid iterations and version controll building GH comps?
TL;DR: I want to build a very simple gRPC.io client GH component, and appreciate all help I can get.
Many thanks, Martin…
la generazione ed il controllo di forme complesse. La didattica è organizzata secondo moduli che coprono gli aspetti più importanti del software e prevede lezioni frontali ed esercitazioni guidate. Il workshop e rivolto a studenti e professionisti con conoscenze base di modellazione tridimensionale.
tariffa EarlyBird entro: 31 Gennaio 2015
Main tutor: Arturo Tedeschi, Authorized Rhino Trainer, autore del primo manuale su Grasshopper “Architettura Parametrica”, di AAD_Algorithms Aided Design e co-director della AA Rome Visiting School (AA School London).
>scarica il pdf con tutte le informazioni: AAD GRASSHOPPER WORKSHOP SERIES…
d integrity"- connection by tension). The term "Tensegrity" was introduced by famous architect and engineer Richard Buckminster Fuller, whose ideas were developed subsequently by Kenneth Snelson and other researchers.
To creating "Arches" we were inspired by the works of Soviet artist Vyacheslav Koleichuk (in particular, by his design "Standing thread") ,and the University of Tokyo student projects ("Moom pavilion" and "Ninety nine failures pavilion").
We wanted to create a large-scale design which would organize space both within and outside itself (that's why we've chosen the location on one of the two parallel park alleys) and would represent a clear, elegant and robust constructional solution. Also we were keen on the idea of purchasing experience in making manually assembled object, which was elaborated using parametric design techniques (software Rhino+Grasshopper+Kangaroo).
Our arched vault is formed by nineteen parabolic arches. Each arch is made up of eleven rods, fastened with one stretched steel cable, and the shapes of the arches are designed parametrically : on the plan one of the generatrices of the vault has a curved shape, while the other is straight, and the height of each arch is in inverse proportion to its span (the more is span, the less is width ,and vice versa). In the longitudinal direction arches are fastened together with four cables running along the entire length of the vault and descending into the backstays . For the safety of Park visitors backstays were marked with colourful flags.
Wooden handles of the spades 1200 mm long, 30 mm in diameter and galvanized steel cable with a diameter of 2 mm were used for building arches. Arches rest on the wooden beam cross section 100x100 mm, mounted on columnar supports. The beam can also serve as a bench for visitors of the Park, as the distance between arches is enough for it (75 cm).…
d integrity"- connection by tension). The term "Tensegrity" was introduced by famous architect and engineer Richard Buckminster Fuller, whose ideas were developed subsequently by Kenneth Snelson and other researchers.
To creating "Arches" we were inspired by the works of Soviet artist Vyacheslav Koleichuk (in particular, by his design "Standing thread") ,and the University of Tokyo student projects ("Moom pavilion" and "Ninety nine failures pavilion").
We wanted to create a large-scale design which would organize space both within and outside itself (that's why we've chosen the location on one of the two parallel park alleys) and would represent a clear, elegant and robust constructional solution. Also we were keen on the idea of purchasing experience in making manually assembled object, which was elaborated using parametric design techniques (software Rhino+Grasshopper+Kangaroo).
Our arched vault is formed by nineteen parabolic arches. Each arch is made up of eleven rods, fastened with one stretched steel cable, and the shapes of the arches are designed parametrically : on the plan one of the generatrices of the vault has a curved shape, while the other is straight, and the height of each arch is in inverse proportion to its span (the more is span, the less is width ,and vice versa). In the longitudinal direction arches are fastened together with four cables running along the entire length of the vault and descending into the backstays . For the safety of Park visitors backstays were marked with colourful flags.
Wooden handles of the spades 1200 mm long, 30 mm in diameter and galvanized steel cable with a diameter of 2 mm were used for building arches. Arches rest on the wooden beam cross section 100x100 mm, mounted on columnar supports. The beam can also serve as a bench for visitors of the Park, as the distance between arches is enough for it (75 cm).…
d integrity"- connection by tension). The term "Tensegrity" was introduced by famous architect and engineer Richard Buckminster Fuller, whose ideas were developed subsequently by Kenneth Snelson and other researchers.
To creating "Arches" we were inspired by the works of Soviet artist Vyacheslav Koleichuk (in particular, by his design "Standing thread") ,and the University of Tokyo student projects ("Moom pavilion" and "Ninety nine failures pavilion").
We wanted to create a large-scale design which would organize space both within and outside itself (that's why we've chosen the location on one of the two parallel park alleys) and would represent a clear, elegant and robust constructional solution. Also we were keen on the idea of purchasing experience in making manually assembled object, which was elaborated using parametric design techniques (software Rhino+Grasshopper+Kangaroo).
Our arched vault is formed by nineteen parabolic arches. Each arch is made up of eleven rods, fastened with one stretched steel cable, and the shapes of the arches are designed parametrically : on the plan one of the generatrices of the vault has a curved shape, while the other is straight, and the height of each arch is in inverse proportion to its span (the more is span, the less is width ,and vice versa). In the longitudinal direction arches are fastened together with four cables running along the entire length of the vault and descending into the backstays . For the safety of Park visitors backstays were marked with colourful flags.
Wooden handles of the spades 1200 mm long, 30 mm in diameter and galvanized steel cable with a diameter of 2 mm were used for building arches. Arches rest on the wooden beam cross section 100x100 mm, mounted on columnar supports. The beam can also serve as a bench for visitors of the Park, as the distance between arches is enough for it (75 cm).…
d integrity"- connection by tension). The term "Tensegrity" was introduced by famous architect and engineer Richard Buckminster Fuller, whose ideas were developed subsequently by Kenneth Snelson and other researchers.
To creating "Arches" we were inspired by the works of Soviet artist Vyacheslav Koleichuk (in particular, by his design "Standing thread") ,and the University of Tokyo student projects ("Moom pavilion" and "Ninety nine failures pavilion").
We wanted to create a large-scale design which would organize space both within and outside itself (that's why we've chosen the location on one of the two parallel park alleys) and would represent a clear, elegant and robust constructional solution. Also we were keen on the idea of purchasing experience in making manually assembled object, which was elaborated using parametric design techniques (software Rhino+Grasshopper+Kangaroo).
Our arched vault is formed by nineteen parabolic arches. Each arch is made up of eleven rods, fastened with one stretched steel cable, and the shapes of the arches are designed parametrically : on the plan one of the generatrices of the vault has a curved shape, while the other is straight, and the height of each arch is in inverse proportion to its span (the more is span, the less is width ,and vice versa). In the longitudinal direction arches are fastened together with four cables running along the entire length of the vault and descending into the backstays . For the safety of Park visitors backstays were marked with colourful flags.
Wooden handles of the spades 1200 mm long, 30 mm in diameter and galvanized steel cable with a diameter of 2 mm were used for building arches. Arches rest on the wooden beam cross section 100x100 mm, mounted on columnar supports. The beam can also serve as a bench for visitors of the Park, as the distance between arches is enough for it (75 cm).…
is that my computer apparently can't handle this amount of data. I suspect it's a problem for my video card (I'm running it on a 2015 MacBook Pro with the most powerful configuration).
1 - I'm using mesh because it seems easier for the video card to handle than nurbs.
2 - To compute on GH it takes just a few minutes. To bake it takes hours.
3 - After baking it crashes. It's computing for half hour and then it responds for half second and then it crashes again and compute for half hour... recursively.
4 - In the command line it says: "AutoSave failed".
Any guess about how to make it run better? settings? geometry tricks? praying?…