berfläche des Grasshopper Programms
Funktionsprinzip eines grafischen Algorithmus-Editors (Datenfluss)
Unterscheidung von Parametern (Datentypen) und Komponenten (Datenverarbeitung)
Erzeugung, Bearbeitung und Analyse von Geometrie-Typen: Punkte, Vektoren, Linien, Kurven, Flächen (surfaces, brep) und Netze (meshes)
Strukturierung der Daten anhand von Listen und Bäumen
unterschiedliche Verknüpfungsmöglichkeiten von Parametern (data matching)
praxisnahe Grundlagen der Geometrie und Vektorrechnung für generatives Design
effizienter Aufbau von parametrischen Modellen anhand Übungsaufgaben
Auszug von Daten aus Modellen für die Fertigung; Daten aus Tabellen (Excel, CSV) importieren, exportieren
Einsatz von benutzerdefinierten Komponenten (custom components)
Vorkenntnisse: Rhinoceros3d Benutzeroberfläche der Software: Englisch Unterrichtssprache: Deutsch, auf Wunsch auch Englisch
Details und Anmeldung:
www.vhs-stuttgart.de
Dieser Kurs wird in Kooperation mit ifBau gGmbH und VHS Stuttgart angeboten, und wird von ifBau als Fortbildung für Mitglieder der Architektenkammer BW anerkannt.
Trainer: Peter Mehrtens
Kursdauer: 3 Tage / 8 Stunden pro Tag
Freitag, 24.01.2014, 09:00-17:00 Uhr Samstag, 25.01.2014, 09:00-17:00 Uhr Sonntag, 26.01.2014, 09:00-17:00 Uhr Ort: VHS Stuttgart, Fritz-Elsas-Str. 46/48
Teilnahmegebühr: 510,00 € Teilnehmerzahl: 4-10 Personen
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During the intense ten-day workshop of the AA São Paulo Visiting School 2014, advanced computational design and digital fabrication will be used to generate speculative new architecture models in the creation of a ‘liquid design’ that can mediate multiple-scale flows. The workshop will explore the redevelopment of a bordering territory along the Marginal Rivers of São Paulo, where in the 1960’s, much of the water-system was disastrously canalized, causing problematic flooding and the creation of ill-conceived residual post-industrial riverbanks that are inhabited by monolithic, large-scale programs such as sports centers, distribution centers, mega-stores and a convention center. The Visiting School São Paulo will work on bringing a new urban life for these sites by redefining the existing macro-architectural typologies along the river with micro-scale interventions that can introduce new flows of urban street culture. Specifically, the workshop will focus on the reinvention of the large-scale market distribution center, CEAGESP (Companhia de Entrepostos e Armazéns Gerais de São Paulo), to introduce programs and structures that could mediate a new movement of people, commerce, and environmental forces using parametric design and fabrication. Students can choose to work either at the larger architectural scale or at the scale of the shop-front display, bringing a new contemporary interface between agricultural production and consumption.
-Teaching team The teaching team will include lead tutor Hart Marlow of su11 (www.su11.com) who specialize in advanced digital design, and local-based architects, to promote innovative strategies informed by local political, economic and environmental issues. -Computational skills
The workshop will teach advanced digital modeling and parametric design skills and rapid prototyping software: no previous experience is needed. A group of specialist computation tutors will conduct an initial skills workshop and continue to assist throughout the workshop to develop the individual projects of the participants. -Digital Fabrication A series of physical models will be built using digital fabrication techniques that will be taught during the workshop, no previous experience is needed.
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al read” component in grasshopper.
But somehow it seems that the command line “TempSensor.requestTemperatures();” makes the firefly firmata somehow unstable. I have also connected 5 servo motor which move strangely irregular/wrong when the command line above is in the program. So, when I for example only control the "Digital Pin 12" in grasshopper it mainly moves the servo on Pin 11 (!) but also a bit time delayed the servo on Pin 12.
Do you have any ideas? It has to be something inside the “#include <DallasTemperature.h>” (Libary for the temperature sensor) which doesnt go together with the firefly firmata und gets something wrong in the "void WriteToPin" firmata command
Or do you may have any working codes for implementing a temperature sensor? Its doenst have to be the one i have, I could get another one.
here you can see the code: http://txt.do/drqao (a simplified version of the latest firmata including my TempSensor lines marked with "//...//TEST")
Thanks! Julian…
hem. Now I need to search through the original points that comprise the voronoi diagram and replace them with the new averaged points. I need to do this while still preserving the logic of the old data tree which is comprised of {i}j values. In other words each point is grouped into a vornoi cell so that the cells can be created with the polyline component
I believe I have a relatively simple solution, but need help create a python script that searches and replaces values within a data tree.See the psuedo code below:
Psuedo-Code:
For each item(i) in Data tree B (list of index values points to be replaced grouped into a data tree corresponding to the new point) find the corresponding integer in Data tree C (list of points grouped around {i;j} values)Then replace the integer in Data Tree C with the key value (the data tree path) that corresponds to the item from Data tree B that is replacing the item from Data tree CFor example:Data Tree B{14}(0)2(1)3(2)6(3)11(4)13(5)14Data Tree C{0;1}(0)2(1)3(2)6Output:Data Tree {0;1}(0){14}(1){14}(2){14}
List A - Single point (New Point) with Data Tree/Key value corresponding to group of points it will replace ( List B)
List B-list of index values of flattened voronoi point list with Data Tree/Key Value corresponding to List A - in other words these are all the points I need to replace with the point in List A
List C-list of index values of flattened voronoi point list with Data Tree/Key Value corresponding to {i}j values necessary to re-create voronoi cells with the polyline component
Once this is done I can use the Output and the new Points in List A to replace the set of old points in the original voronoi diagram with the new set up reduced points.
If there is another way to achieve the goal of eliminating small edges of a vorononi diagram, I'm open to suggestions.
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as follows.
We have a grid which consists of a collection of columns, where each column consists of a list of points. You said flattening is out of the question, so we need to cull items from each list individually.
Let's say our culling pattern is KDDDKDD (repeat as needed). K = Keep, D = Ditch. If a column contains 18 points, the pattern needs to be repeated until it is 18 items long. In this case:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
K D D D K D D K D D D K D D K D D D
We can now cull each column, but they will all be culled in the same way. By shifting the pattern one more index for each column, we can cycle the culling.
The fix incidentally is to Shift the pattern PRIOR to repeating it. Then it works as expected:
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David Rutten
david@mcneel.com
Tirol, Austria…
Added by David Rutten at 2:49pm on October 2, 2013
Visiting School Rio de Janeiro will collaborate with the Centro Carioca de Design with the support of Columbia University Studio X to investigate new possibilities for the urban infrastructure surrounding World Cup Stadiums. Nation-wide, there has been significant investment to build and renovate stadiums for the 2014 World Cup in order to meet the required standard FIFA regulations (‘Padrão FIFA’). At the same time, there has been a large public demand for equal investment into transport systems, public space, and public programs such as hospitals and schools. The Visiting School will tap into the momentum of this movement, and promote a series of interventions within and around the World Cup structures, proposing new public programs and standards for their legacy. Students can choose to focus directly on the Maracanã stadium in Rio de Janeiro, the venue for the Final match of the World Cup. The intense ten-day workshop will employ computational design and digital fabrication to introduce a design methodology that creatively automates and promotes transformation, mutation and complexity for these infrastructure interventions.
Prominent Features of the workshop
Teaching teamThe teaching team will include a mix of tutors from the Architectural Association, including Theodore Sarantoglou Lalis e Dora Sweijd (lassa-architects.com) of Diploma 17, and locally-based architects, urban-designers and experts, mediated by locally-based Visiting School directors, to promote cutting-edge innovative strategies informed by local political, economic and construction issues.
Computational skillsThe workshop will teach advanced digital modeling and parametric design skills, no previous experience is needed. A group of specialist computation tutors will conduct an initial skills workshop and continue to assist throughout the workshop to develop the individual projects of the participants.
Digital FabricationA series of physical models will be built using digital fabrication techniques that will be taught during the workshop, no previous experience is needed.
Applications
1) You can make an application by completing the online application found under ‘Links and Downloads’ on the AA Visiting School page. If you are not able to make an online application, email visitingschool@aaschool.ac.uk for instructions to pay by bank transfer.
2) Once you complete the online application and make a full payment, you are registered to the programme. A CV or a portfolio is not required.
The deadline for applications is 11thApril 2014.
All participants travelling from abroad are responsible for securing any visa required, and are advised to contact their home embassy early. After payment of fees, the AA School can provide a letter confirming participation in the workshop.
Fees
The AA Visiting School requires a fee of £695 per participant, which includes a £60 Visiting membership fee.
Fees do not include flights or accommodation, but accommodation options can be advised. Students need to bring their own laptops, digital equipment and model making tools. Please ensure this equipment is covered by your own insurance as the AA takes no responsibility for items lost or stolen at the workshop.
Eligibility
The workshop is open to current architecture and design students, phd candidates and young professionals.
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the loops haven't even started yet. This is a one time overhead - re-starting the loops after that doesn't have this long delay until you close and re-open the file.
Second, I got some encouraging results rather quickly but then spent WAY TOO MUCH TIME trying to replace the inner loop with a "Fast Loop". These are not well behaved in the sense that they don't respond to <ESC> like the "Classic" loops do so you can't stop them; and I never got the same results as the "Classic", no matter what I tried - but ultimately, I just got too frustrated with "Fast Loop" causing Rhino/GH and my whole laptop to freeze up - VERY BAD!!!!!!!!!!
I re-wired the loops slightly so that the hour used by your 'analysisPeriod' cluster is determined by the 'D0' value inside the inner loop.
I added a "Loop On / Loop Off" switch to stop/start the looping (which was useless with "Fast Loop" - grrr....).
I 'Simplified' the 'D1' output of the inner loop and enabled 'Record data' and 'Output after the last' on the outer loop.
And I got this - four buildings over three hours takes about 20 seconds:
Eleven buildings over three hours takes about one minute.
I'm not sure what will happen when I increase the hours and number of buildings but will try it when I have more time. It might be a good idea to avoid writing to Excel inside the loops and wait for the end results before writing them to an Excel file?
There are more possibilities for re-wiring based on simplifying various outputs but I'm tired of this for now and have other things to do. The exponential slowdown you observed might be due in part to Anemone adding an extra branch path every time it loops; adding 'Simplify' might help this?
P.S. 11 buildings over 13 hours (6am to 6pm) took 5 minutes 38 seconds.…
Added by Joseph Oster at 12:54pm on January 18, 2016
ells new products like the Firefly Interactive Prototyping Shield which mounts on top of your Arduino Uno and provides access to a number of useful input (ie. sensors) and output (ie. motors) devices. It includes features like:
Three linear slide potentiometers connected to analog pins 0, 1, and 2
Two-axis joystick connected to analog pins 3 and 4
Light sensor (photocell) connected to analog pin 5
Three push buttons connected to digital pins 2, 4, and 7
Red LED connected to digital pin 13
RGB LED connected to digital pins 3, 5, and 6
Two servo connections on digital pins 8 and 9
A connection to the Easy Stepper Driver (co-designed by Sparkfun Electronics and Brian Schmalz) to control stepper motors. The direction of the motor is controlled through digital pin 10 and the number of steps through digital pin 12
High-voltage MOSFET circuit capable of driving lights, valves, DC motors, solenoids, or anything else requiring higher voltage or current. The gate of the MOSFET is connected to digital pin 11 (PWM).
Some come take a look and let us know what you think!
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ed according to list C.
I tried replace members, but it consists of geometry, so it doesn't worked.
In list C I filtered all the indices that need to be replaced.
All items in {0;0} from C need to be replaced by List B {0;0}
All items in {0;1} from C need to be replaced by List B {0;1}
And so on...
In the end everything needs to be fed into a orient component.
G is the geometry behind list B
A is the new list (but I don't know how to create)
B is the list A of all 60 panels
To wrap up the question:
I need to have entry 1 from list B in a new list on position: 0 1 2 3 5 6 7 10 11 12 15 16 21
I need to have entry 2 from list B in the same new list on position: 4 8 9 13 14 etc. etc. etc.
I wonder how I can do this :) Thanks in advance!
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