low cost fabrication techniques developed by RC6, a research laboratory based at UCL / The Bartlett School of Architecture. A part of Bartlett's BPro programme, RC6 traditionally engages in the development of design methodologies positioned at the overlap of digital and analogue computation, primarily investigating concepts which merge traditional, low-tech manufacturing processes and advanced technological concepts.Topic of this workshop - Composite Bodies - represents RC6’s ongoing research into hybridised material systems consisting of soft membrane materials and light-weight infill aggregates. In this particular case, from a material point of view, we will be looking into custom designed lycra pieces, filled with styrofoam beads and spheres and constrained with series of performative stitches. The resulting parts will be coated with latex and used to create series of interlocking components and surfaces.The workshop itself will consist of 2 stages. The first two days will be dedicated to intensive software training sessions. Students will be introduced to multiple digital platforms focusing on scripting in Processing and 3D modelling/sculpting in Maya/ZBrush. Aim is to enable students to understand algorithmic design processes and procedural modelling techniques and to help them to learn how to customize pre-made scripts and how to embed them in their individual workflows.The remaining five days will be dedicated to the fabrication of a spatial installation. Students will learn how to translate digital models into prototypical components and work alongside tutors to aggregate those into one large-scale architectural object which will be exhibited as part of SBODIO32 Exhibition for Milan Design Week 2017.Dates: March - April 2017 RC6 Program Director:DANIEL WIDRIGwith IGOR PANTICSTEFAN BASSINGSOOMEEN HAHMWorkshop Tutor:IGOR PANTICLead Designer at Zaha Hadid ArchitectsVisiting Lecturer at UCL Bartlett School of ArchitectureTeaching Assistants:Thomas Bagnoli, Evgenia Makroglou, Kalliopi Mouzaki, Darshan Singhaniaucl bartlett rc6 graduate studentsSoftwares: Maya, Rhino, Grasshopper, Processing*Previous knowledge of the softwares is not compulsory. Fabrication Tools: Lycra, Styrofoam beads, Latex, Sewing machines…
Added by Amrvitaloni at 9:38am on February 25, 2017
t; 15 ottobre 2017.
Plug it², primo step del percorso formativo in tre fasi “AAD Workshop Series“, è il corso più seguito in Italia sulla modellazione parametrica, giunto al sesto anno consecutivo di attivazione. Plug it² fornirà ai partecipanti un’effettiva padronanza delle più avanzate tecniche di modellazione digitale, approfondendo le metodologie della modellazione algoritmica e parametrica nel campo dell’architettura e del design del prodotto. Il corso è rivolto a studenti e professionisti dei settori della progettazione architettonica, design, moda e gioielleria, con esperienza minima nel disegno CAD bidimensionale (acquisita su qualsiasi piattaforma software) e si articolerà in lezioni teoriche frontali ed esercitazioni guidate.
INFO ED ISCRIZIONI…
e a "game changer" regarding lighting simulations and analysis. To harness the power of Grasshopper, the flexibility of Rhino in a lighting specific application is, I believe, already the future.
Because of the above I am a big proponent of Honeybee for the professional environment, but I feel that there are still a few shortcomings... from what I have tried.
1. It should be "photometrically" more comprehensive, not just for illuminance, luminance and energy (W.h). Other quantities are of great importance, namely intensity and flux.
2. Producing documentation is a big advantage (if not the main advantage) of dedicated packages such as Dialux or AGI32, it would be nice to see it as a strong feature in Honeybee as well.
3. Support for Eulumdat would be a nice feature.
4. There is a performance issue with multiple sources as you mentioned. I have tried a "simple" analysis with 120 sources and it takes, indeed, a substantial amount of time to produce the result. Don't know where the bottleneck is, perhaps not Honeybee's to blame, but it is a hindrance in using the software for complex simulations.
5. Material/surface design would benefit from more options.
Finally, do you have a roadmap of sorts and what can the users expect from Honeybee electic lighting in 2017?
Have a great year!! All the best.
…
dina, Alexander Sapuntsov, Yulia Zarechkina and with a help of our friends: Roman Korseev, Sergey Zhigalev, Nikita Istratov.
Our pavilion presents itself as a kind of beach screen for Volga riverbank. An aesthetic of the object, which consist of yellow “stars”, is simultaneously due to the features of the tensegrity construction and to the representation of Samara as a city of space industry.
The pavilion is formed by 128 crosses made of 9 mm plywood. Each cross has its individual form. They are connected only by stretched vertical steel cables. We wanted to make manually assembled object, which was elaborated using parametric design techniques. All plywood elements were prefabricated with CNC machine, including a mounting frame for cables assembling. This allowed us to assemble a compound parametric tensegrity construction with high accuracy and just as it was designed.…
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。…
will cover one of the latest and greatest topics from recent development. Although the webinars will be happening each Thursday around 12:30 Eastern Standard Time, registration will give you indefinite access to recordings of the webinars so that you can reference them when the time comes to apply them on your work!
The grand list of workshops is as follows:
1 - High-Quality Graphics, Visualizations and Animations with LadybugMarch 9th, 12:30 PM EST
2 - Brute Force Parametric Energy Modeling and Sensitivity Analyses in Early DesignMarch 23rd, 12:30 PM EST
3 - Wintertime Indoor Thermal Comfort Visualization - Eliminating Perimeter Heat with High-Performing FacadesMarch 30th, 12:30 PM EST
4 - Summertime Indoor Thermal Comfort Visualization - Setpoints and Blinds Up with Right Shade + ControlsApril 6th, 12:30 PM EST
5 - Condensation Modeling with HoneybeeApril 20th, 12:30 PM EST
6 - Urban Heat Island Modeling with DragonflyApril 27th, 12:30 PM EST
7 - Expanding Your Climate Data Sources with DragonflyMay 4th, 12:30 PM EST
8 - CFD Simulation with OpenFOAM, Rhino/Grasshopper and Butterfly (Advanced)May 11th, 12:30 PM EST
This series will have a similar arc as the one in the Fall, starting with basic topics and moving to advanced ones as we progress down the list. The first one will be accessible to all users regardless of prior experience and all of the workshops listed here will cover topics for which there is currently no tutorial video content. Hope that you can attend!…
n get the correct results with cooling loads:
3. After I update LB+HB, a warning is given for the set EP construction component:
4. so I replaced it with the latest one (Feb 05, 2017):
5. Now the cooling loads is missing from the result for reason unknown ...
May I ask if the missing cooling loads is related to the latest update of LB+HB? What component update is causing this problem?
BTW, I'm using Singapore's epw file, and for a tropical city, there should be no heating energy at all. So, sth clearly is wrong over here ...
Thanks.
…
dologies and large-scale prototyping techniques from previous years, while bringing together a range of experts from internationally acclaimed academic institutions and practices, Architectural Association, Zaha Hadid Architects, among others.
AA Istanbul Visiting School will investigate the inherent associations between form, material, and structure through the rigorous implementation of innovative design and fabrication techniques. Computational methods for design, analysis, and fabrication will be coupled with physical experimentation. The key objective of AA Istanbul Visiting School will comprise the design and fabrication of a one-to-one scale prototype realized by the use of robotic fabrication techniques.
The programme will be formulated as a two-phase process:
Stage 1: Participants will gain an insight of material processes, computational methods, and various fabrication techniques, culminating with core concepts related to complexity in design practices. During this stage, basic and advanced tutorials on generative design algorithms and analysis tools will be provided.
Stage 2: Participants will propose design interventions based on the skills and knowledge gained during the first stage. Study models of various scales will be produced, finally followed by the robotic fabrication and assembly of a full scale working prototype which unifies the design goals of the programme.
The design agendas of AA Athens and AA Istanbul Visiting Schools will directly create feedback on one another, allowing participation in either one or both Programmes.
Prominent features of the programme / skills developed:
Participants will be part of an active learning environment where the large tutor to student ratio (4:1) allows for personalized tutorials and debates.
The toolset of AA Istanbul includes but is not limited to Rhinoceros and Grasshopper, as well as analysis software.
Participants will have access to advanced digital fabrication tools.
Robotic design and fabrication processes will formulate the physical prototyping phase of the programme.
Eligibility
The workshop is open to current architecture and design students, PhD candidates and young professionals. Prior software knowledge is not required.
Accreditation
Participants receive the AA Visiting School Certificate with the completion of the Programme.
Applications
The AA Visiting School requires a fee of £600 per participant, which includes a £60 Visiting Membership fee. Discount options for groups or for those wishing to apply for both AA Istanbul and AA Athens Visiting Schools are available. Please contact the AA Visiting School Coordinator for more details.
The deadline for applications is 14 June 2017. No portfolio or CV, only requirement is the online application form and fees.
For more information, please visit:
http://www.aaschool.ac.uk/STUDY/VISITING/istanbul
http://ai.aaschool.ac.uk/istanbul/
For inquiries, please contact:
elif.erdine@aaschool.ac.uk…
propose new models of infrastructural self-organisation, urban automation and mobility systems.
Adaptive networks based on multi-agent principles and crowd simulation are used to solve complex architectural and programmatic conditions in a three-dimensional urban environment. We will explore towards an intelligent architecture, defined by flows of information and its materialization in speculative infrastructure and architectural scenarios. A responsive infrastructure that is deployable in multiple regions.
Our design process will be driven by a direct feedback loop of different simulation software, each informing another as input for emerging connectivity networks and interrelated urban systems, driven by site specific urban and topographical parameters.
The workshop aims to develop ideas of adaptive and evolutionary space-making beyond deterministic and finite solutions. In a series of algorithmic design exercises, different network principles and speeds, users behavior and needs are tested and evaluated, both by observation and parameter based criteria.
Students will propose an architectural intervention in dense urban scenarios, that is both tested for optimised efficiency and stimulating in its embodiment.
METHODOLOGY
Students will be introduced to expertise in generative, algorithmic and parametric design approaches. Tutors and students will engage experimentally with computational simulation, analysis, design and production to query the design repercussions of these information-based technological methods for urbanism. During the workshop, students will develop design proposals responding to studio briefs using Processing with Rhino and Grasshopper. The final results of the workshop will be visualized using V-Ray for Rhino and the Adobe Suite.
Basic knowledge of Rhino and Adobe Suite is required. Advanced knowledge of Grasshopper and Processing is not mandatory.
…