t the maximum potential with the bridge BIM+PARAMETRIC DESIGN ;D
During this Intense Week, we will learn about the power of Rhino + Grasshopper + ArchiCAD with Professional and Useful examples for our Normal Working day :D
You will get Advanced Library Files + Personal Web + Knowledge and Skills to start using this incredible Methodology ;D
Also, the week is having Lectures from different Experts sharing their Computational Working Experiences ;D And Jam Sessions! opening the door to 5 interesting topics to research, learn and experiment together :D
2020 is your YEAR ;D !!!
Complete details and registration……
hopper no requiere de conocimientos de programación o scripting para permitir al diseñador trabajar de forma generativa y paramétrica. No son necesarios conocimientos previos de Grasshopper pero sí de Rhino a nivel básico.
Controlmad es Centro Formador Autorizado Rhinoceros y Rhino fab Studio.
Nuestros profesores son Instructores Autorizados Rhinoceros con experiencia universitaria, nacional e internacional.
El curso y los ejercicios a desarrollar están enfocados a diseñadores, arquitectos, ingenieros y estudiantes.
En este curso introductorio el alumno se familiarizará con términos básicos de la estructura de Grasshopper, como “listas de datos”, “dominios”, “estructuras en árbol”, etc.
Es un curso de 18 horas, con el que se pretende entrar en la lógica de trabajo de Grasshopper mediante diversos ejercicios, de forma que el alumno sea capaz posteriormente de desarrollar sus propias gramáticas, con la confianza que da comprender los términos básicos de programación sobre los que se apoya todo el sistema de trabajo de Grasshopper.Para este curso no son necesarios conocimientos previos de Grasshopper, pero sí de Rhino (a nivel básico).
También se vincula el programa con la impresión 3D aprendiendo a exportar archivos desde Grasshopper con los requisitos mínimos de impresión 3D. Se realizará una demo de impresión en el aula.
El primer día del curso se le facilita al alumno un manual-tutorial con los ejercicios a realizar, en PDF.
A la finalización del curso, y siempre que el alumno haya asistido al 80% de las clases, se le otorgará un diploma oficial acreditativo del curso.
Fechas: 5, 6, 12 y 13 de marzo
Horario: sábado y domingo 16 - 20,30h (Madrid, CET)
Lugar: Sesiones On-line en directo a través de nuestra plataforma online.controlmad.com
…
he Cordyceps. Maybe some of you find this helpful/useful.
So basically, the Cordyceps is a physical module with 4 knobs and 1 slider. The knobs give an output between 1 and 1000, while the physical slider outputs 0-359. And of course, for this physical module I wrote a plugin to communicate with it. The knobs are intended to be the variables that modifies the design, while the physical slider is intended to be connected to the camera component.
Here I will put up "the recipe" for all to make their own module. You will be able to download the plugin as well.
Please send me a message if you want the 3D-files for the knobs, the box and slider knob. They've been made to directly 3D-print.
Plugin:
https://github.com/zakadjeb/Cordyceps/blob/master/Cordyceps/Cordyce...
Code for Arduino IDE:
https://github.com/zakadjeb/Cordyceps/blob/master/Arduino/_Arduino_...
What you need:
1x - Arduino (Leonardo, UNO or whatever)
4x - Potentiometers
1x - Sliding potentiometer
1x - Breadboard
Bundle of jump wires.
1. So, a potentiometer is a variable resistor, which is basically a component that changes the resistance between the voltage and the ground.
If A is supplied with 5V then B must be connected to Ground. The W will give "read" the resistance, and thus should be placed in Analog input (A0-A5) on the Arduino. The slider potentiometer works the same way.
2. Now connect the 4 pots to each their Analog input. The slider is supposed to be in A4. So to make sure:
A0: Knob1
A1: Knob2
A2: Knob3
A3: Knob4
A4: Slider
3. Now it's time to connect the voltage! Using the breadboard, the voltage can be sent through 1 line, the Ground as well. It should be quite easy to connect them.
4. Now, download the Arduino IDE and copy-paste the code I supplied above. In the IDE, you need to let it know which Arduino you're working with, and which port is should send the script.
5. Almost there. Download the plugin. Open the port you're using through the plugin. Set Start to True and the Cordyceps should be within you.
This recipe will be updated!
Let me know if there are any issues.
// Zakaria Djebbara…
he Cordyceps. Maybe some of you find this helpful/useful.
So basically, the Cordyceps is a physical module with 4 knobs and 1 slider. The knobs give an output between 1 and 1000, while the physical slider outputs 0-359. And of course, for this physical module I wrote a plugin to communicate with it. The knobs are intended to be the variables that modifies the design, while the physical slider is intended to be connected to the camera component.
Here I will put up "the recipe" for all to make their own module. You will be able to download the plugin as well.
Please send me a message if you want the 3D-files for the knobs, the box and slider knob. They've been made to directly 3D-print.
Plugin:
https://github.com/zakadjeb/Cordyceps/blob/master/Cordyceps/Cordyce...
Code for Arduino IDE:
https://github.com/zakadjeb/Cordyceps/blob/master/Arduino/_Arduino_...
What you need:
1x - Arduino (Leonardo, UNO or whatever)
4x - Potentiometers
1x - Sliding potentiometer
1x - Breadboard
Bundle of jump wires.
1. So, a potentiometer is a variable resistor, which is basically a component that changes the resistance between the voltage and the ground.
If A is supplied with 5V then B must be connected to Ground. The W will give "read" the resistance, and thus should be placed in Analog input (A0-A5) on the Arduino. The slider potentiometer works the same way.
2. Now connect the 4 pots to each their Analog input. The slider is supposed to be in A4. So to make sure:
A0: Knob1
A1: Knob2
A2: Knob3
A3: Knob4
A4: Slider
3. Now it's time to connect the voltage! Using the breadboard, the voltage can be sent through 1 line, the Ground as well. It should be quite easy to connect them.
4. Now, download the Arduino IDE and copy-paste the code I supplied above. In the IDE, you need to let it know which Arduino you're working with, and which port is should send the script.
5. Almost there. Download the plugin. Open the port you're using through the plugin. Set Start to True and the Cordyceps should be within you.
This recipe will be updated!
Let me know if there are any issues.
// Zakaria Djebbara…
of a hack to push it to an android device, and you can't use labels, which is a very bad point!
...
I won't buy an Iphone!
The other is Control OSC. It looks rougher, but it has a lot of advantages to me.
+ Game of Life included!
+ you can use and update labels :))
+ Has a nice muti touch widget unfeatured in touch osc
+ You can script the interface using java script manipulation in gh, stream it to your dropbox and update in one "tap", as follows
Does anyone have experience with scripting interfaces for this software? I'm stuck already. I know nothing of java script to begin with. As you can see I managed to format the labels but the osc message I could not find a way, it stays untouched.
Just in case someone knows better, here are my "objects" (I said that right?). The userXXX are replaced in GH.
{ "name":"userName", "type":"Slider", "x":(xPadding + .11), "y": yPadding, "width":.82, "height":.082, "color":"userColor", "min":userMin, "max":userMax, "ontouchmove" : "var roundedvalue = this.value.toFixed(userFix); LbluserName2.changeValue(roundedvalue)", "onvaluechange": "oscManager.sendOSC('/userName', 'f', this.value.toFixed(userFix))",},{ "name":"LbluserName1", "type":"Label", "x":xPadding, "y": yPadding, "width":.1, "height":.05, "color":"userColor", "value": "userName"},{ "name":"LbluserName2", "type":"Label", "x":xPadding, "y": (yPadding + 0.05), "width":.1, "height":.05, "address":"/userName", "color":"userColor", "value": 0},…
eaningful. Humans must interact with it. Information arises when humans examine the data. Knowledge is created when information is transformed through human social interactions.”
Richard Gayle via spacecollective
The space in which we live can be monitored in many aspects and appears to be to be a gradient of data in continuous evolution and change. One of the major advantages of parametric tools is to be able to inform the design processes with accurate, specific and variable, in space and time, data streams .
DATA BODIES is a Grasshopper workshop that will focus on how its nature as an information processor and how it can be (ab)used in order to manipulate data, streaming inputs from various sources and use datafeeds to inform geometry or data structures from the very simple up to more complex ones. The aim is to give an understanding of information and data articultion as already a spatial and architectural operation; results may range from pure data communication protocols, dataviz or data-driven geometries depending on the skill levels and aspirations of each participant. The brief is also open to the suggestions and opportunities that may rise during the workflow.
DETAILS: http://www.superbelleville.org/dataworkshop/…
edit 29/04/14 - Here is a new collection of more than 80 example files, organized by category:
KangarooExamples.zip
This zip is the most up to date collection of examples at the moment, and collects t
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)…
nergy plus silulation and this is the error text:
Current document units is in MetersConversion to Meters will be applied = 1.000Duplicate surface name! Name is changed to: Pelle_Sopra_DupDuplicate surface name! Name is changed to: Pelle_Nord_Dup[1 of 8] Writing simulation parameters...[2 of 8] No context surfaces...[3 of 8] Writing geometry...[4 of 8] Writing Electric Load Center - Generator specifications ...[5 of 8] Writing materials and constructions...[6 of 8] Writing schedules...[7 of 8] Writing loads and ideal air system...[8 of 8] Writing outputs......... idf file is successfully written to : C:\Users\Personal\Desktop\TESI\x006\THOR001\EnergyPlus\THOR001.idf
Analysis is running!...C:\Users\Personal\Desktop\TESI\x006\THOR001\EnergyPlus\eplusout.csv......
Done! Read below for errors and warnings:
Program Version,EnergyPlus, Version 8.3.0-6d97d074ea, YMD=2016.01.05 20:08,IDD_Version 8.3.0
************* IDF Context for following error/warning message:
************* Note -- lines truncated at 300 characters, if necessary...
************* 160 ScheduleTypeLimits,
************* indicated Name=ANY NUMBER
************* Only last 2 lines before error line shown.....
************* 161 ANY NUMBER, !- name
************* 162 ScheduleTypeLimits, !-
** Severe ** IP: IDF line~162 Invalid Number in Numeric Field#1 (Lower Limit Value), value=SCHEDULETYPELIMITS, in SCHEDULETYPELIMITS=ANY NUMBER
************* IDF Context for following error/warning message:
************* Note -- lines truncated at 300 characters, if necessary...
************* 258 ScheduleTypeLimits,
************* indicated Name=ANY NUMBER
************* Only last 2 lines before error line shown.....
************* 259 ANY NUMBER, !- name
************* 260 ScheduleTypeLimits, !-
** Severe ** IP: IDF line~260 Invalid Number in Numeric Field#1 (Lower Limit Value), value=SCHEDULETYPELIMITS, in SCHEDULETYPELIMITS=ANY NUMBER
** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details.
** Severe ** IP: Possible incorrect IDD File
** ~~~ ** IDD Version:"IDD_Version 8.3.0"
** ~~~ ** Version in IDF="8.3.0" not the same as expected="8.3"
** ~~~ ** Possible Invalid Numerics or other problems
** Fatal ** IP: Errors occurred on processing IDF file. Preceding condition(s) cause termination.
...Summary of Errors that led to program termination:
..... Reference severe error count=3
..... Last severe error=IP: Possible incorrect IDD File
************* Warning: Node connection errors not checked - most system input has not been read (see previous warning).
************* Fatal error -- final processing. Program exited before simulations began. See previous error messages.
************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors.
************* EnergyPlus Sizing Error Summary. During Sizing: 0 Warning; 0 Severe Errors.
************* EnergyPlus Terminated--Fatal Error Detected. 1 Warning; 3 Severe Errors; Elapsed Time=00hr 00min 0.30sec
thanks for any help
Lhor…