hopper) and High Definition visualizations (V-Ray) and exploring its scientific innovations supporting the users' platform philosophical ideas.
SESSIONS: 5 sessions of 8 hours (40 hours total)
E-MAIL: educacion@chconsultores.net
REGISTRATION: (55) 56 62 57 93
TECHNICAL INFO: 044 (55) 31 22 71 83
INSTRUCTORS: Have past experience working at Gehry Technologies, and participated at studios with Eric Owen Moss and Tom Wiscombe at SCI-Arc (Southern California Institute of Architecture).
Day 1: Introduction to MAYA tools, 3D exercise start.
Day 2: Continue 3D exercise.
Day 3: Original 3D architecture design.
Day 4: Grasshopper optional application on 3D architecture design.
Day 5: V-Ray Application on 3D architecture design.
30 DAY TRIAL SOFTWARE DOWNLOAD:MAYA 2012: http://www.autodesk.com/products/autodesk-maya/free-triaRHINO 4: http://s3.amazonaws.com/files.na.mcneel.com/rhino/4.0/2011-02-11/eval/rh40eval_en_20110211.exe3DS MAX 2010: http://www.autodesk.com/products/autodesk-3ds-max/free-trialVRAY FOR 3DS MAX: http://www.vray.com/vray_for_3ds_max/demo/thankyou.shtml#thankyouPHOTOSHOP e ILLUSTRATOR: https://creative.adobe.com/apps?trial=PHSP&promoid=JZXPS
www.helenico.edu.mx
www.scifi-architecture.com/#!workshops/c1wua
LIKE US ON: www.facebook.com/scifiarchitecture
…
size component supported only ground PV panels and angled roof PV panels.
Download the newest PV SWH system size component from here (Click on "View Raw" to download it. Then move the downloaded .ghuser file to File->Special Folders->User Objects Folder, an confirm to overwrite it with previously located one).
Just a few opinions on the project you are currently working on:This kind of fixed, non-transparent (overhang) PV panels attached to a building facade are vert convenient for locations with higher latitudes.The reason for this is because they (fixed overhang PV panels) are dimensioned according to the sun position at summer solstice. Elevation angles on summer solstice at higher latitude locations are lower, than those of lower latitude locations.Due to Incheon's low latitude (37), you will get rather short length of the PV panels* : less than 10 centimeters (0.097 meters in the attached .gh file below). As you have mentioned, Galapagos needs to be used too.I will just mention some of the good and bad ways in which the upper issue could be somewhat avoided:1) Increasing the vertical distance between PV panels (PV panels appear above every second window).2) Increase the tilt angle. This will increase the length of PV panels also, but will decrease the final annual AC energy output.An example of this solution has been applied at FKI building in Seoul (latitude: 37N):I already did some tests (with tilt angles: 40, 45, 55) and this does not seem like a good solution, though.3) Shrinking the "sun window" by using the minimalSpacingPeriod_ input. In Photovoltaics, a planner is suppose to make the 9h to 15h part of the sun window free of any obstructions. If you try to decrease the "sun window" to 10 to 14h, the length of your PV panels will increase. You can try to experiment a little bit with this (set your minimalSpacingPeriod_ to 21th of June 10 to 14hours). In general, shrinking the sun window on summer solstice is not a good principle during planning.4) Using tracking PV panels, not fixed ones. But Ladybug Photovoltaics components do not support this kind of PV systems. They only support fixed ones.I would personally go with the first option. You can also experiment with the second and third one.Comment back if you have any other questions.-----------------------* By "length of the PV panels" I mean the: tiltedArrayHeight_ input of the PV SWH system size component.…
ents will react to sensors, creating a range of different lighting and spatial effects that will trigger further movement and produce a feedback loop of behaviour and response. To accommodate this responsiveness, the design will be developed using parametric associative modeling, processing, arduino, and digital fabrication using the CNC and Laser Cutters. Students can both develop completely new designs, and/or work on the evolution of the Workshop 1 Supple Pavilion project.
The Visiting School will return to Barracão Escola de Carnaval to evolve the design of the migrating Pavilions, their contents and their context, exploring a design philosophy of interactive event design and the production of a creative fusion of high-tech design generation and fabrication with low-tech redefinition of Carnival-float artisan techniques, paraphernalia, and materials. We will work in the immense and creative Pimpolhos warehouse, collaborating with local artisans of several Samba Schools in the post-industrial, partly-derelict Porto do Rio area, (the birthplace of the Carnival and Samba), introducing digital fabrication techniques. The goal is to create interventions for micro-venues and cultural events that express the identity of the Samba culture within the `Porto Maravilha` planning.
Instruction for the Supple Pavilions workshop series will be led by Rob Stuart-Smith of Kokkugia, Lawrence Friesen of Generative Geometry, Ivan Ivanoff of Interactive Art Estado Lateral Media Lab, Toru Hasegawa of Proxy, with Anne Save de Beaurecueil and Franklin Lee of SUBdV, along with other AA tutors, the Pimpolhos Artistic Directors, and Carnival float-fabricators. Each workshop will provide an introduction to computational design (Grasshopper, Processing and Arduino) and digital fabrication, no previous computational experience is required. Students taking part in multiple workshops will have access to advanced computation instruction. This workshop will produce 1:1 prototyping, exploring the structure and transformations of the pavilions. Final fabrication and assemblage will occur in July.
The workshop is open to architecture and design students and professionals worldwide. Participants can take part in one or more workshops, with fee discounts offered to those interested in multiple workshops.
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he results are accurate enough.Good to go!Current working directory is set to: C:\002_VIDEO\02_UNI\TU_GRAZ\01_DISSERTATION\02_RESEARCH\08_POMODORO\01_SIMULATION_MODEL/03_HONEYBEE\VF_00\gridBasedSimulation\start cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineRuntime error (IndexOutOfRangeException): index out of range: 0Traceback: line 271, in script…
is set to: C:\002_VIDEO\02_UNI\TU_GRAZ\01_DISSERTATION\02_RESEARCH\08_POMODORO\01_SIMULATION_MODEL/03_HONEYBEE\VF_00\gridBasedSimulation\start cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get Commandlinestart cmd /c C:\Users\paratufello\AppData\Roaming\Ladybug\unnamed\annualSimulation\unnamed_7_DS.batWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineWMIC PROCESS get CommandlineRuntime error (IndexOutOfRangeException): index out of range: 0Traceback: line 271, in script…
dy for a wall where we want to analyze its openings. I made a parametric wall that then get's analyzed with different geometries and the idea was just to leave it there for the weekend as it morphed through different iterations. However, after successfully running a test simulation on my pc (just with one iteration), it fails to run the same test on the workplace computer. Any help would be greatly apprecated! Here is the following error:
Sorry! But the number of available CPUs on your machine is 4.
Honeybee set the number of CPUs to 4.
Grid-based Radiance simulation
The component is checking ad, as, ar and aa values. This is just to make sure that the results are accurate enough.
Good to go!
Current working directory is set to: C:\ladybug\Parametric_Shading_Wall\psw_z0.25_t.025_y.2_r90_m3_lux\gridBasedSimulation\
Failed to read the results!
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
Runtime error (PythonException): Failed to read the results!
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
rtrace: fatal - (psw_z0.25_t.025_y.2_r90_m3_lux_RAD.oct): truncated octree
PS. It says to see line 336…
ort and export from the images below and also from the HELP file of DB in attachments (Page 71: Importing Geometric Data; Page 78-80: Import 3 - D CAD Data). In their HELP file, they mention about "import geometric data".
However, regarding the input of schedules, loads, constructions and etc., DB normally uses "Component " and "Template" (Page 29: Templates And Components; Page 591: Templates; Page 533: Components). "Templates" are databases of typical generic data, including Activity templates, Construction templates, Glazing templates, Facade templates, HVAC templates, Location Templates, and etc. "Component " are databases of individual data items (e.g. a construction type, material, window pane).
Both "Component " and "Template" are allowed to be imported and exported by using "Import / Export library data" command (.ddf format - DB Database File; Page 734: Import Components/Templates, Export Components/Templates). DB also allows us to build up our own libraries of templates and components (Page 731: Library Management; Page 733: Template Library Management).
In order to import both geometric information and other information related to schedules, loads, constructions and etc. from GH to BD, we supposed the following two ways:
1. GH(HB+GB) --> gbXML (both geometric and "Component " and "Template" information) --> DB
This is the way we most prefer. We did see information related to schedules, loads, constructions encoded in the gbXML file generated by GB, but still do not know the reason why DB did not take this information (I also mentioned this in Q6 within the gh file). We assume this might because the gbXML file we create encodes the schedules based on a different template / schema than the one DB expects. We also post this question to the DB forum for help.
(http://www.designbuilder.co.uk/component/option,com_forum/Itemid,25/page,viewtopic/p,13755/#13755)
2. GH(HB+GB) --> gbXML (geometric information only) + .ddf ("Component " and "Template" information only) --> DB
If the first way doesn't work and DB only takes geometric information from the gbXML, then we might think of the other way - generating the .ddf files from GH(HB+GB) to pass the schedule, load and construction information to DB.
I was wondering if it is feasible for HB and GB to have this function? And what is your suggestion to achieve this?
In addition, we notice that DB can export XML files (not gbXML), so we are trying to figure out if DB also accepts / reads the XML file. If so, we might be able to convert the gbXML (with both geometric and schedule information) to XML. What do you think about that?
Thank you again for all your help!
Best,
Ding
DB import
DB export
Template libraries
Component libraries
…
te some cut sheets, but not to optmize material, rather define some cut lines. Everything that I am cutting is made of planar wood elements, but there are very specific geometries (mostly straight lines) and I have to put tolerances and radiasas at the corners in order to cut on the cnc mill. Spending time to figure out how to automate is necessary, but I am stuck!
One thing the definition is doing is taking my brep modeled components in rhino and makking them into 2d close curves and laying them side by side. It works...not ideal as its not layed out in a sheet, but that is not the most important part.
Another particular problem is that you will see some notches in the curves, which other pieces will slip into, so different slots need different specific offsets (making them larger) as a toelrance to allow for material play. This I don't even know how to set up so maybe it will just have to wait.
THE MAIN QUESTION, and super important would be, LIFESAVER:
At all 'inward' corners...which I think will always mean concave corners (most are 90 degrees, but are within to sides, instead of a corner sticking out). I'm sure its obviousy, but the reason being the outward corners a circular dril bit can cut, but inward ones need an arc profile extended beyond where the corner of the other piece will fit into. The drill bit i am using is 6mm, so 6mm diamters arcs is what i'm working with.
I have managed to put such an arc at every vertices of each cut piece. The problem being some stick outward isntead of cutting into the piece. So each one needs to be orieneted correctly. Ideally they would also only draw into inward corners, but I can always delete them out. I think maybe I am missing a more logical mathematical way of defining?
For these geometries it is not very important which side the half circle arc in on in the inward corners, but I also have some geometries that I will have to control where the circles face according to the rest of the cut piece.
The cutouts in the middle of the pieces that are curves do not need such corners obviously.
The picture is an example drawn
I hope this isn't too specific and long. in general though automating fabrication, and controling pracitcal math and orientation problems like this is itnersting to me!
THANKS…
egin working on a design, we first have to systematically examine the resources and restrictions which, on the one hand, make every design project possible and, on the other hand, also define and delimit it. Knowing what we have to work with enables us to explore its boundaries and at the same time to venture beyond those boundaries. This is our studio’s sphere of action; our projects emerge as a critical reflection of the discipline of architecture, in its essence, on fundamental concepts, their general form, and their underlying media and processes. The goal of our work is to master a variety of forms of the architectural repertoire of the 20th century, but especially to develop and expand this repertoire, as has been happening in the past 20 years. The goal of this workshop is to introduce a series of these techniques and expertises and to apply the knowledge transfer on a given site in Timisoara. GUESTS: STUDIO ZAHA HADID VIENNA: http://www1.uni-ak.ac.at/architektur/ https://www.facebook.com/StudioHadidVienna Ass. Dipl.-Ing.MArch. AA Dist. Robert NEUMAYR-BEELITZ - lecturer/critic http://www.unsquare.at/ AProf. Mag.arch. Mag.theol. Johannes TRAUPMANN - critic http://www.pxt.at/ Univ.-Ass. Dipl.-Ing. Jens Erik MEHLAN - critic http://moh-architecture.com/ Univ.Stud.Ass. Daniel BOLOJAN - tutor - Grasshopper http://nonstandardstudio.wordpress.com/ Univ.Stud.Ass. Bogdan ZAHA - tutor - Maya http://bogdanzaha.tumblr.com/ LOCAL: Prof.Dr.Arh.Urb.Conf. Florin MACHEDON - critic (BUC)
more information on https://encodedfields.wordpress.com/…