ceros.
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Architectes et designers, utilisateurs de Rhino souhaitant paramétrer Rhinocéros à l’aide de Grasshopper,
programme associant des composants et une structure de graphe interagissants avec le modèle Rhino.
Une bonne connaissance de Rhinocéros est nécessaire. La langue de la formation est le français.
Structure et Objectif de la formation /
La formation se déroule sur 3 jours : les 2 premières journées sont consacrées aux « fondamentaux » de
Grasshopper avec en préambule une introduction au design et à l’architecture paramétrique et leurs impacts
dans la conception, la création et la construction.
La troisième journée sous forme d’atelier est dédiée à l’étude de cas concrets proposés par les stagiaires, qui,
quelques jours avant la formation, pourront envoyer leurs projets par mail à - info AT rhinoforyou DOT com -
Les stagiaires, après la formation, pourront rester en contact avec les formateurs de HDA par le biais du
blog complexitys.com et le twitter @HDA_Paris. La durée de cette formation permettra d’atteindre une
autonomie et une bonne compréhension basée sur des exemples concrets.
Programme ind icatif des notions traitéES pendan t la formation /
Introduction à la conception Paramétrique . Rhinoscript, Grasshopper: différences et similarités . Interface
graphique de Grasshopper . Objets, Données, Listes . Opérateurs scalaires : La mathématique de
Grasshopper . Gestions des données : la logique de Grasshopper . Vecteurs, Points, Lignes, Surfaces : La
géométrie de Grasshopper . Listes, Arbres, Branches . Le dessin paramétrique: exercices divers et exemples
. Références, Bibliographie, Support de cours . Ateliers d’architecture et design paramétrique (3ème jour) .
Moda lité de la formation /
Venir avec un PC portable équipé de Rhinocéros version 4.0 SR 7 et de la dernière version du plug-in
Grasshopper (téléchargeable sur www.grasshopper3d.com).
Le coût du stage de 3 jours est de 1050 € HT par personne.
Réserver votre place dès que possible car les places sont limitées à 10 participants maximum.
Inscriptions et renseignements: Jacques Hababou, info AT rhinoforyou DOT com
Pour en savoir plus sur l’architecture paramétrique: www.complexitys.com…
script, it works fine, however if I copy the example in c# into a c# script, it doesn't recognize the methods. The help files outlines additional steps when coding in c#:
""1. Create a new Visual C# 2005 Console Application project.
2. Add a reference (COM) in the project to the Sap2000.exe.
3. Paste the following code inside function Main():
//dimension variables
Sap2000v15.SapObject mySapObject;
Sap2000.cSapModel mySapModel;
int ret;
int i;""
Is there a way to still script inside a grasshopper component in c# or should I switch to using VBA?…
Firefly_firmata into my Arduino UNO board;
3. I wrote a definition with open port component and serial read (with timer) component, feeding the correct COM number and opening the port in the right time.
All components are grey, but when I connect a panel component I can't see anything but a list of nosense numbers (see attached image).
What am I doing wrong? I also downloaded files from this youtube video, but nothing...
https://www.youtube.com/watch?v=RNoAYWtky6g
I really hope in your help :) thank you in advance…
picture:
... and on a PC without anything attached to the serial port. When you open the port, start the read component and its timer, do you then get a stream of <empty> values in the log output? (hmmm... I suppose that's only reasonable - but still, you are also seeing this?)
I suppose that, because of the mutually exclusive behavior of both the spider and grasshopper (i.e. only one at a time can access the COM port), we can deduce that we are listening on the correct port.
Am I listening on the correct pin (if such a notion makes sense at all)? If I look back to the spider software, I see that 9 channels are listed and that it's only the measured value on channel 0 that changes when I press the load cell. Channels 1, 2, and 3 report OVERFLOW; 4, 5, 6, and 7 are pretty much constant at 0.000 to 0.005 V; and channel 8 says FFFF. I do not know how things like that work so I do not know if they reflect reading from the 9 pins on the D-sub 9 connector.
As for your BTW question: no, I don't need to record all of the sensor values. I suppose that the Out value on the Read component will always reflect the most current value and that's all that I need to get on with life. In the end, the idea is that we have 4 load cells in the 4 corners of a plate onto which a vertical pipe is fixed. Loads are then put on the top end of the pipe and we'll have to visualize both direction and magnitude of the bending moment that is calculated from the compression - tension readings from the load cells... We've done this on a scaled model and streamed load cell information into MatLab. Now we'll have to use a different datalogger and I was hoping to be able to do the post processing in Rhino.
wim…
ectural project, the efficiency of design communication and the control of information-flow are as important as the creativity of ideas. In response to the concurrent digital evolution emerging in the architectural industry world-wide, the Faculty of Architecture at The University of Hong Kong will host a two week intensive summer program named Digital Practice.Led by professors from The University of Hong Kong, as well as invited practitioners with expertise in practice of cutting edge digital techniques, the program offers participants opportunities to experience applications of computational tools during different stages of an architectural project, i.e. concept design, form finding and optimization, delivery, management and communication of design information under the team-based working environment. By learning advanced computational techniques through case studies in the context of Hong Kong, participants are expected to go beyond the conventional perception of technology, considering users and tools as a feedback-based entity instead of a dichotomy. The program, which is taught in English, includes a series of evening lectures related delivered by teaching staff and invited local architects.對於高品質的建築專案,創意之外,專案過程中高效的設計資訊管理和交流成為項目設計深化和實施必不可少的環節。今天,數字化技術不但改變了建築師的繪圖工具,影響了設計的過程,而且提供了工程建造和管理實施的更有效、更高效的手段。針對建築的數位化演進,香港大學建築學院將於2011年暑假期間,在香港大學建築學院舉辦“數位化實踐”國際研習班。在香港大學建築學院教授及有著相關豐富經驗的外聘實踐建築師的指導下,學員將有機會體驗在專案的不同階段(如概念設計、設計形式的生成、優化,設計資訊的管理和交流),如何有效地應用各種運算智慧化技術(從設計的數位化生成和建築資訊類比到物理模型),提升設計實施的品質,增加設計團隊對於方案的控制。我們將挑戰對於“技術”的傳統認知,即相對於使用者它不僅是工具,更是與使用者互動的媒介,二者形成一個有機的合體。研習班期間會安排系列講座,展現數位化技術在實踐工程中的廣泛應用。…
this common installation problem please find a tested remedy shared by one of the group members:
Comment by Iman Sheikhansari on August 26, 2019 at 8:33amDelete Comment
HiIf you are encountering a problem with rhino 6 versions don't worryFollow these steps.1. Download SYNTACTIC from https://sites.google.com/site/pirouznourian/syntactic-design2. Install it and go to the installation folder, Drag & drop SYNTACTIC(green one) over your grasshopper canvas.3. Close your rhino and reopen it. 4. Type GrasshopperDeveloperSettings5. Tick the Memory load *.GHA assemblies using COFF byte arrays option6. Run grasshopper and enjoy plugin
I hope this helps,
Best regards,
Pirouz
…
both my plotter/cutter and wide format printer. I had been running the plotter from my main work laptop - a Win10 machine via the plotters USB port. As it turns out you can't get Win XP drivers for this USB connection so I needed another solution.
I tried to use the plotters DB25 serial port connection using an old DB9 to DB25 modem cable I had in my collection = no luck the plotter wouldn't talk. A bit more research and it turns out these plotters need a 'null modem' cross over cable to operate. I found a pic of the correct wiring online and made up my own with some cable and connectors from the local electronics hobby shop.
With this hooked up and using Hyperterminal I was able to fire some codes to the plotter directly and get a response back - winning!
At this point I got my original code working with the 'net use' redirect from LPT1 to COM1.
HOWEVER - being that the plotter was now on a COM port there are a few more interesting things you can do with it - one is being able to read the paper size/cut area from the printer.
So what I needed to to was find a way to send and receive data to/from the plotter using the serial port.
A bit of research into .NET's serial port interface and using a bunch of small pieces of test code I have manged to completely re-jig this driver.
Upgrades include:
- Direct Serial Port comms using Null Modem cable (a USB to serial adaptor + null modem should also work)
- Plot area read from the plotter - a rectangle the size of the plot area is placed on a separate layer and coloured red
- Testing to see if selected plotting curves are both closed and inside of the cutting area - with errors shown and exiting if they are not right.
- After plot 'parking' of the plot head at the end of the cut items + an adjustable offset (currently requires manual resetting of origin on the plotter before for next cut)
Great thing is it is now 100% running within Rhino Python - no DOS command line calls = no flashing up of the CMD wind. Also no temp files needed on the HDD and no limit to number of curves that can be plotted - tested with 200 or so with no issues.
Overall very happy with whole project - have learnt a LOT about Python and .NET interfacing AND ended up with a very handy/useful tool.
Cheers
DK
# This code is a WIP # It plots directly to a DGI Plotter# via the serial port
import System.IO.Ports as Portsimport rhinoscriptsyntax as rsimport time
#Some setup valuescom_port = 'COM1' #change to match plotter port baud_rate = 9600 #change to match plotter settingplotter_step = .025 #mmfinsh_offset = 10 #mm
#Delete old cutting area and cut objectsif rs.IsLayer('Cutting Area'): rs.PurgeLayer('Cutting Area')if rs.IsLayer('Cutting Objects'): rs.PurgeLayer('Cut Objects')
#Setup Serial PortMyport = Ports.SerialPort(com_port)Port_Write = Ports.SerialPort.WriteMyport.BaudRate = baud_rateMyport.ReadTimeout=5000 #5 secsMyport.Close()Myport.Open()
#Setup PlotterPort_Write(Myport, 'PU;PA0,0;IN;\n')Port_Write(Myport, 'SP1;\n')Port_Write(Myport, 'PA;\n')time.sleep(2)
#Read the Paper size from PlotterPort_Write(Myport, 'OH;') #HPGL read limits codetime.sleep(2)
return1 = ''papersize = ''count = 0char_in_buffer = 0chars_in_buffer = Ports.SerialPort.BytesToRead.GetValue(Myport)
if chars_in_buffer == 0: print 'Plotter not ready' Myport.Close() exit()
while (count < chars_in_buffer): return1 = Myport.ReadChar() papersize = papersize + chr(return1) count = count + 1
papersize = papersize.split(",")rect1 = (float(papersize[2])*plotter_step)rect2 = (float(papersize[3])*plotter_step)
print 'Cutting area = ' + str(rect1) + 'x' + str(rect2)
#place cutting area curve on its own layer, make it red and lock itplane = rs.WorldXYPlane()cutting_area = rs.AddRectangle( plane, (rect1), (rect2))rs.AddLayer (name='Cutting Area', color=(255,0,0), visible=True, locked=True, parent=None)rs.ObjectLayer(cutting_area, 'Cutting Area')
#get plotting objects
allCurves = rs.GetObjects("Select curves to plot", rs.filter.curve)
#test to see if these are closed curves - exit if not
for curve in allCurves: test_closed = rs.IsCurveClosed(curve) if test_closed == 0: print "One or move of these curves are not closed" Myport.Close() exit()
#test to see if these are inside cutting area - exit if not
for curve in allCurves: test_inside = rs.PlanarClosedCurveContainment(curve, cutting_area)
if test_inside==0 or test_inside==1: print "One or more of these curves are outside of cut area" Myport.Close() exit()
#All ok - convert to points and send data to printer
rs.AddLayer (name='Cut Objects', color=(0,255,0), visible=False, locked=True, parent=None)
for curve in allCurves: Port_Write(Myport, 'PU;PA;SP1;\n') polyline = rs.ConvertCurveToPolyline(curve,angle_tolerance=5.0, tolerance=0.025, delete_input=False, min_edge_length=0, max_edge_length=0) points = rs.CurveEditPoints(polyline) rs.ObjectLayer(polyline, 'Cut Objects')
# PU to the first point x = points[0][0] y = points[0][1] Port_Write(Myport, 'PU' + str(int(x / plotter_step)) + ',' + str(int(y / plotter_step)) + ';\n') # PD to every subsequent point i = 1 while i < len(points): x = points[i][0] y = points[i][1] Port_Write(Myport, 'PD' + str(int(x / plotter_step)) + ',' + str(int(y / plotter_step)) + ';\n') i += 1
Port_Write(Myport,'PU;\n')
#find the far end of the cutbox = rs.BoundingBox(allCurves)far_end = str(box[1])far_end = far_end.split(",")far_end = far_end[0]far_end = float(far_end)/plotter_stepfar_end = (int(far_end))+ finsh_offsetfar_end = str(far_end)print (far_end)
#return plotter home and close portPort_Write(Myport, 'PU;PA' + far_end + ',0;IN;\n')Port_Write(Myport, 'SP1;\n')Port_Write(Myport, 'PA;\n')Myport.Close()time.sleep(10)…
s para acercarse al diseño paramétrico.
El curso esta dirigido a arquitectos diseñadores e ingenieros de diseño que pretendan implementar las técnicas del modelado por parámetros dentro de sus herramientas de proyectación.
La duración de dicho curso es de 20 horas, repartidas en 6 sesiones los días lunes y miércoles de 5pm a 8:20pm, en el espacio cultural calle nueve (calle 9 # 43b-75 abajo del parque del Poblado. https://www.facebook.com/calle.nueve). El curso dará inicio el día lunes 22 de Agosto de 2011. El máximo de inscritos por curso es de 15 personas para garantizar la calidad de la enseñanza.
Este curso estará dictado por los arquitectos Ana Maria Bustamante Y David Vanegas arquitectos de la oficina de arquitectura interior137 (www.interior137.blogspot.com) que cuentan con más de dos años de experiencia en el manejo de GRASSHOPPER, y tienen una trayectoria reconocida como docentes en la Facultad de Arquitectura de la U.P.B.
Para participar en el taller los estudiantes deberán tener un computador portátil para su uso personal, durante todo el curso, además deben tener instalado el software Rhino versión 4.0 con la actualización SR9, y un conocimiento mínimo del modelado y la interfaz de este software.
Contenidos:
Sesión 1: * Introducción al modelado por parámetros y al diseño mediante algoritmos.
* Grasshopper: datos + acciones. Interface.
Sesión 2: * Datos fijos, datos variables: Parámetros.
* Puntos, Curvas parametrizables.
* Transformaciones: Mover, Rotar.
Sesión 3: * Datos múltiples (listas): Series. Rangos.
* Funciones de 1 y 2 variables.
Sesión 4: * Gestiones de datos en listas: seleccionar items, ordenarlos, desordenarlos, eliminarlos.
Sesión 5: * Atractores.
Sesión 6: * Superficies: creación de superficies, panelizaciones.
Informes e inscripciones:
Para inscribirse en el curso deberá reservar su cupo abonando el costo total del curso al menos hasta el miércoles 17 de Agosto. Este valor se devolverá totalmente únicamente en caso de cancelación del curso.
Para mayor información, póngase en contacto a través del correo electrónico interior137@gmail.com asunto: CURSO GH…
p;xg_source=msg_com_gr_forum
(Below the last post from that discussion).
***************************************
Hi Matthew, Thanks for such a swift response and sorry for the false alarm. After reinstalling Karamba the examples open without a problem.
I hoped that the examples will clarify something, unfortunately you do not use Beam Resultant Forces' output as a source of optimization criteria/objective there.
I am still having problem with the fact that Beam Resultant Forces component gives a list of zeros as a 1st output till it finishes calculation.
This is my case: 1. Karamba calculates normal forces in elements that are in the mast's traversal plane (mast sections, spreaders and wires (shrouds)). 2. Normal forces in forestays and backstays are calculated analytically elsewhere. 3. Having the normal forces in the wires, the algorithm selects the wires' diameters (having given the wires catalogue), calculates their weights and centers of gravity. 4. Objectives are: minimizing the mass and minimizing the VCG (vertical centre of gravity). They are convergent, but constraint (minimal sail area) is dealing with it. 5. The thing is that normal forces from Karamba and calculated analytically arrives at different times (Karamba need a bit more time). I tried to delay the other data (till Karamba finishes calculation) with Data Dam, Anemone's Time Buffer, Phyton/C#/VB components, but all of them caused that Octopus/Wallacei weren't working correctly.
Any idea comes to your mind how this problem might be solved?
Thanks, Mikołaj…