lysing and assessing sustainable performance of buildings and structures, called sustainability-open. Yes, open-source: that means everybody can use it as much as they want. We hope that this will give designers and engineers to make more sustainable buildings and structures in the future. And you can take a look at our code - to learn or improve it if you like! The framework is still in early stage and doesn't do a lot yet at the moment, so this is your chance to become an early-adopter.(By the way, very soon new components will come out that will early let you do more.)
The framework is linked to Grasshopper and Rhino - as soon as we have a little bit more, we will add some links on this site too.
At the Design Modelling Symposium Berlin (September 28 - October 3)we will host a workshop over the weekend which will show you everything about the framework and its components, our future plans, etc. We will also teach you how to develop your own components. Not everything will be purely related to the framework as we will be doing a lot of .net development related to Rhino/Grasshopper and other parametric applications. If you would like to know more about the framework, take a look at: http://www.sustainability-open.com or follow us on Twitter: @sustainableopenIf you would like to sign up for the workshop in Berlin or would like to know more, go here:https://www.design-modelling-symposium.de/frontend/index.php?folder...Regards,Jeroen…
lysing and assessing sustainable performance of buildings and structures, called sustainability-open. Yes, open-source: that means everybody can use it as much as they want. We hope that this will give designers and engineers to make more sustainable buildings and structures in the future. And you can take a look at our code - to learn or improve it if you like! The framework is still in early stage and doesn't do a lot yet at the moment, so this is your chance to become an early-adopter.(By the way, very soon new components will come out that will early let you do more.)
The framework is linked to Grasshopper and Rhino - as soon as we have a little bit more, we will add some links on this site too.
At the Design Modelling Symposium Berlin (September 28 - October 3)we will host a workshop over the weekend which will show you everything about the framework and its components, our future plans, etc. We will also teach you how to develop your own components. Not everything will be purely related to the framework as we will be doing a lot of .net development related to Rhino/Grasshopper and other parametric applications. If you would like to know more about the framework, take a look at: http://www.sustainability-open.com or follow us on Twitter: @sustainableopenIf you would like to sign up for the workshop in Berlin or would like to know more, go here:https://www.design-modelling-symposium.de/frontend/index.php?folder_id=180Regards,Jeroen…
noceros 3D, en caso de aprobar satisfactoriamente el examen, se les otorga un reconocimiento avalado por el CMJ y la Secretaría del Trabajo. Este workshop va dirigido principalmente a estudiantes de arquitectura; sin embargo, ya que la parametrización es una herramienta que abarca diferentes ámbitos del diseño, se pueden integrar estudiantes de diseño industrial, artistas o estudiantes que tengan relación con lo gráfico y lo formal. Al finalizar el curso, los asistentes serán capaces de manejar Rhinoceros y Grasshopper en un nivel medio, con el objetivo de que el alumno pueda continuar aprendiendo con alguno de nuestros workshops subsiguientes o de manera autodidacta.
Las personas inscritas deben tener conocimientos básicos de geometría y de preferencia utilizar algún programa de dibujo en 2D o modelación en 3d. Rhino.GetMe Rigid // Enfocado a construir un objeto de diseño parametrizado a cualquier escala, el workshop se divide en tres módulos: Módulo 1 // Rhinoceros 3D // Una sesión de cinco horas. Módulo 2 //Grasshopper // Una sesión de cinco horas. Módulo 3 // Ejercicios prácticos /Tres sesiones de diez horas c/u. Es necesario traer el equipo necesario para trabajar, se cuenta con equipos en caso de que algún alumno no cuente con laptop pero son limitados, por favor avísanos a la brevedad si lo requieres. Se les recomienda que traigan dispositivos de almacenamiento en caso de que necesitemos compartir información.
El costo del Workshop es de $6500.00 para profesionales y $5000 pesos para estudiantes.
Pre-venta únicamente para estudiantes, hasta el día viernes 29 de junio, con un costo de $3500.00 pesos.
El cupo del evento es limitado puedes apartar tu lugar y terminar de liquidar antes del 29 de junio en pre-venta, antes del 6 de junio en admisión general.
Para hacer tu registro al workshop por favor envía un correo a workshop@transformalab.com incluyendo:
Nombre
Universidad u oficina de procedencia
Teléfono móvil
En el caso de estudiantes por favor incluyan una copia escaneada de su Constancia de Estudios para hacer válido su descuento.
Una vez recibida su información se les enviará un correo con la información necesaria para realizar su pago mediante depósito bancario, y posteriormente un mail de confirmación de su participación en el Workshop.
www.transformalab.com…
ing basic concepts for personalization in footwear design and fabrication in order to send afterwards to CNCs, laser cutting equipment, 3D printers, etc.
Note: Previous knowledge in Rhinoceros and footwear design is not necessary.Content:1. Personalization in footwear upper(Working with a digital shape from a 3D scan)2. Shoe sole creation3. Using Grasshopper to create women's heels4. Nesting and using the work area5. Basic programming for a mold and/or a mock-up for CNC - RhinoCAM
Requirements: 1 PC or LaptopSoftware: Punto3D, provided by a CD which includes necessary demo programs, as well as the files that will be used for the session. Rhinoceros 5.0 for WindowsGrasshopperRhinoCAM 2014RhinoNEST 2014NOTE: You have to bring your own computer with Rhino 5 installed.
Register:
http://www.mcneelmiami.com/inc/sdetail/1727
//
Diseño y fabricación digital de Calzado
Lugar: Sala Ejecutiva 4
Precio: $95.00 USD
Idioma de curso: Español
Profesor: José de Jesús López Martínez. Punto3D, ART (Authorized Rhino Trainer)
Descripción: Compartir conceptos básicos para la personalización de cortes de calzado y el diseño de accesorios. Para su posterior envío a dispositivos como CNC's, equipos de corte láser, impresoras 3D, entre otros. Nota: No es necesario tener conocimientos previos de Rhinoceros, ni de diseño de calzado.
Contenido:
1. Personalización de corte de calzado (Trabajo sobre horma digital, la cual proviene de un escaneado 3D)
2. Creación de una suela
3. Grasshopper para la creación de un tacón para calzado de dama
4. Nesting y el aprovechamiento de áreas de trabajo
5. Programación básica de un molde y/o maqueta para CNC – RhinoCAM
Requisitos: 1 PC o Laptop
Software: Punto3D, proveerá un CD que incluirá los programas Demos necesarios, así como los archivos para trabajar en la sesión
Rhinoceros 5.0 para Windows
Grasshopper
RhinoCAM 2014
RhinoNEST 2014
NOTA: Tienes que llevar tu computador con Rhino 5 ya instalado
Regístrate:
http://www.mcneelmiami.com/inc/sdetail/1727…
content from the "bin" folder to the "c:\ladybug\terrain shading mask libraries 64-bit" folder:
So not the very bin folder, but its content.Just do this and the component will work.
Hi Abraham,
But just want to remind that Marios Tsiliakos developed a component for unblocking the LB_HB components and libraries (Unblock All and Unblock).
Thank you for the suggestion. I am aware of that component. I shared an article about it on my facebook account last year, at the time when it was released. It's a great component!There are still two issues with it: It edits the windows registry.I order for it to edit the windows registry it requires an account with administrator's rights.To unblock the file manually you do not need to have an account with administrator's rights.
BTW i installed the release-1800-x64-gdal-2-1-0-mapserver-7-0-1.zip without issues (just unblocking).
Yes, the GDAL 2.x.x and MapServer 7.x.x versions will also work. But I can not install them on my PC, therefor I can not provide support for them. The GDAL 1.x.x and MapServer 6.x.x are sufficient for what the component does.If you intend to seek support for any future issues, please install the latest GDAL 1.x.x and MapServer 6.x.x version as said by the component installation instructions.…
I am not knowledgeable about google maps nor google maps api, but from what I read the two components will definitely show a bit different results due to different topography sources.If it is judging by this 2010 article, your Terrain Generator component offers much higher precisions for USA. Precision goes up to a couple of meters, which is amazing!!On the global scale it offers either SRTM 1 or 3 arc-second data or 30 arc-second GLOBE data. Again this is from the mentioned article, I couldn't find this information by searching the Google Maps website.Terrain Generator 2 component always uses SRTM 1 arc-second data from opentopography.org, and it is limited to 60 degrees north and does not have data for Antarctica. It does not come with satellite image either which is another very convenient feature that you have!I couldn't find information about the allowed radius provided by the Google maps api free account. I limited the "radius_" input to 100 000 meters, even though opentopography.org provides more than that (I successfully downloaded 300 000, but Rhino 5 was not able to create a topography on my PC from such a large amount of data).Even though I couldn't compare the results from two components, by looking at your upper example_LB_terrain_generator.gh definition: set the "I" input of "Surface from points" component to True. In this way the surface will be interpolated through points, which is what we want.
Again thank you for the permission, and I look forward seeing those high precision topography that Google maps offers!!…
diseño paramétrico con Grasshopper: días 16, 17 y 18 de noviembre. Curso de iniciación a Grasshopper. Para seguirlo no se requieren conocimientos previos específicos. El objetivo de este curso es tomar contacto con Grasshopper, entender cómo funciona y empezar a fabricar y editar geometría con él. Más información y programa detallado del curso. - MÓDULO II: curso de diseño discriminativo con Grasshopper y análisis ambiental con Ecotect: días 23, 24 y 25 de noviembre. Se tratarán componentes avanzados de geometría y gestión de datos, así como soluciones evolutivas de optimización del diseño con Galapagos, y conexión con Ecotect. Más información y programa detallado del curso. - MÓDULO III: curso de diseño iterativo: scripting con Grasshopper en C#: días 30 de noviembre, 1 y 2 de diciembre. Curso de "scripting" con Grasshopper y Processing, donde se tratará de modelado recursivo con C# y RhinoCommon en Grasshopper. Formadores Los cursos están conducidos por Authorized Rhino Trainers: puedes comprobar nuestros tres años de experiencia, más de 30 cursos de Grasshopper y 300 alumnos en nuestra página web. Material El material de los cursos ha sido elaborado íntegra y exclusivamente por nosotros para estos cursos: - Manual de ejercicios de Grasshopper nivel I - Manual de ejercicios de Grasshopper nivel II - Manual de ejercicios de scripting en Grasshopper con C# Formato Cursos intensivos con duración de 18 horas con el siguiente horario: - Viernes: 17-21h - Sábado:10-14h, 16-20h - Domingo: 11-14 h, 16-19h Grupos El número de asistentes está limitado a un máximo de 10 personas para garantizar la calidad de la enseñanza y a un mínimo de 4 personas.…
Added by Miguel Vidal at 8:40am on August 30, 2012
ies a step further towards informative models, how to extract data through a parametric process and design analysis which leads to performance based schema.The workshop will cover some advanced modeling techniques in grasshopper along with some useful grasshopper plugins "GECO,WEAVERBIRD,KANGAROO and more". An introductory to ecotect analysis will also be inculded.The workshop is dedicated to intermediate Grasshopper users " knowledge of GRASSHOPPER equivalent to which gained in Parametricisim WS or higher is preferred".Knowledge of ECOTECT is a plus but not necessary".
Schedule :Deadline for Registration : May 13,2013Workshop Starts : Thursday, May 16, 2013 - 5:30 pmThe workshop consists of 10 lectures, Each lecture lasts for 3 hours.3 lectures per week (Sun, Tues & Thur) ---------------------------------------------------Fees : 600 L.EYou have to fill the Registration Form below for place reservation.We only have few places available. ---------------------------------------------------Prerequisite :-Students should bring their own laptops---------------------------------------------------Registration Form:https://docs.google.com/forms/d/1qd7cTRi8fGJ3OiVPjiNzHA0ZRmXI2qCvk1CUQ-X_4H8/viewformYou can view previous Parametric workshops,Student work & presnetation here :Previous workshophttps://www.facebook.com/events/469048376477647/https://www.facebook.com/media/set/?set=a.548388031851299.1073741826.470747186282051&type=1https://www.facebook.com/events/178326265647678/…
rights to register the "mapwingis.ocx" file.Francesco, would you be patient just a tiny little bit, so that we could try something else? I would be grateful if you could.
1) Close Grasshopper and Rhino2) Run the Revo Uninstaller Pro and uninstall your MapWinGIS application along with removing all the leftovers from the registry.3) Restart your PC, and once it boots again, make sure that you are logged in as an Adminstrator.4) In your Start menu's search box type: "UAC", which will find your User Account Control Settings. Click on it, and a new window will open. Set the bar on the left to "Never notify".5) Turn off your Antivirus, which ever it is.6) Download the 64 bit version of v4.9.4.2 MapWinGIS.7) Right click on downloaded MapWinGIS-only-v4.9.4.2-x64.exe file, and choose "Properties". If there is "Unblock" button click on it, and then click on "OK". If there is no "Unblock" button, just click on "OK".8) Left double click on MapWinGIS-only-v4.9.4.2-x64.exe file and install it to "C:\dev\MapWinGIS" folder. Choose "Full installation" during installation process!9) In your Start menu's search box type: "CMD". Once the "Command prompt" appears do not left click on it! Instead right click on it, and choose "Run as Administrator".10) A command prompt window will open. Type the following command:
"your_regsvr32_folder_path\regsvr32.exe" /u /s c:\dev\mapwingis\mapwingis.ocx
If command does not result in an error message, then type this one afterwards:
"your_regsvr32_folder_path\regsvr32.exe" /s c:\dev\mapwingis\mapwingis.ocx
11) If no error appeared again, then open your Rhino and Grasshopper and check what Gismo_Gismo component prints from its "readMe!" output.If errors appeared, it would be nice if you could post their screenshots.…
Added by djordje to Gismo at 5:46am on March 27, 2017
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)…