asuring Urbanity."
The seminar aims at re-centering the debate of measuring urban form on the contemporary issues of designing, planning and regulating the extensive city. It will bring together a group of international experts on the subject and the objective is to discuss the importance of combined qualitative-quantitative approaches on the generation of new insights on the contemporary urban environment and planning strategies.
The workshop presents a set of innovative approaches and methodologies using its own software. At the workshop participants will be invited to use the available toolset to address a specific urban issue where the construction of models for automatic measurement of urban indicators will be part of the urban design process.The workshop is intended for all urban planning professionals who want to improve their skills and knowledge as well as for students or doctoral students in urban planning. The CIAUD will issue a participation certificate equivalent to 3 ECTS credits.The workshop will run from 7 to 12 May 2012 and the seminar will be held on May 11, 2012 in FAUTL.The seminar and workshop program can be found attached ora t the website: http://www.measurb.org/en/home.html We thank in advance for the dissemination of this event to whom might be interested.
Best regards
José Beirão
Cristina Cavaco
workshop.pdf
seminar.pdf
Measuring urbanity…
you post a screenshot of what the message coming from its readMe! output looks like?2) Close your Grasshopper and Rhino.3) Download "Revo Uninstaller Pro" from here. It is free for first 30 days, which is what we need.4) Right click on the RevoUninProSetup.exe and check if the file is blocked. If it is, unblock it.5) Run the RevoUninProSetup.exe file and install "Revo Uninstaller Pro".6) Uninstall "MapWinGIS" with "Revo Uninstaller Pro". It is important that "Revo Uninstaller Pro" deletes not only files from MapWinGIS installation folder, but also all other leftovers (as registry inputs). Here is a small tutorial on how to do that. Watch it from 6:10 till the end.7) Restart your PC8) When your Windows boots up, make sure that you are logged in as Administrator!9) 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".10) Turn off your Windows Firewall.11) Then turn off your custom Firewall (in case you have another one, besides standard Windows Firewall).12) Completely turn off your Antivirus.13) Download again the MapWinGIS-only-v4.9.4.2-x64.exe.exe file from here.14) Right click on the MapWinGIS-only-v4.9.4.2-x64.exe file and see if it is blocked. If it is, unblock it.15) Right click on MapWinGIS-only-v4.9.4.2-x64.exe file and choose: "Run as"... Administrator.16) One the installation preparation steps start, choose "Full installation". Wait for the MapWinGIS installation to finish.17) Right-click on "Rhino 5" icon and then choose: "Run as administrator".18) Open the the ironpython_admin.gh file again, and again post a screenshot of the message coming from its readMe! output.19) Drop the "Gismo Gismo" component to Grasshopper canvas. Post a screenshot of the message coming out from its readMe! output.
So we will need in total three screenshots of the readMe! output messages.
Thank you once again for being patient, and sorry for the large number of steps.…
Added by djordje to Gismo at 1:52am on April 9, 2017
example 10.5 is exactly halfway or at 50%, 12 is at 200%, 5 is at -500%. If you were to remap these values into the other domain, their percentages ought to remain the same, ie.:
10.5 = 50% becomes 0 (because 0 halfway -100 to 100)
12 = 200% becomes 300
5 = -500% becomes -1100
The most common use of Remap Numbers is to change a set of measurements to be within a given goal domain. For example if you measure brightnesses using the Image Sampler, you get values between 0.0 (black) and 1.0 (white). However these brightnesses are supposed to control rotational angles between 10 and 45 degrees. Thus, you use a Remap component with the source domain (0.0 to 1.0) and the target domain (10 to 45).…
s the "Surface Populating" definition: I manage to populate my geometry over the surface, but after I bake it, I have to delete the boxes that define my components limits as well! Is there any way of populating and baking only the chosen component, without having to delete the boxes afterwards?
Secondly:
Basically: I am trying to cover a surface with two types of components [ an open one and a closed one] , which will be proliferated over my tubular surface according to the main sunlight direction.
1. I introduce the surface component.
2. I use "Divide Interval2" in order to have division into U and V.
3. i generate the target boxes [ "surfaceBox"] .
4. I use "Isotrim" ( same intervals) and "BRepArea" to find centroid of each area.
5. My "Curve" component introduces sun angle, with its "End Points".
6. I use "Vector 2Pt" to specify sun-light direction.
7. I want to measure the angle between sun-light and the surface normals, at the position of each component; after generating the centre points, I need the normals of each centre point to get the surface's points' UV, and "Evaluate" the srf at points.
8."Angle" and "Vector" components: I use them in order to evaluate the angle between the sun direction and the srf.
9. I convert this angle to degree by using a "Function" [ to see if the angle is bigger from the max.angle or not...]
10. Function "x,y" gives me boolean data.
11. Data become "Dispatch"ed...
12. Two "Morph" components , each one linked to one part of the "Dispatch" data, generate "closed" and "open" components over the srf.
The result should have been different types of components, based on the surface's curvature, diraction and sun-light direction...
I do not understand where the mistake is in this definition...
Thx in advance1
Spyros K.…
onsecutive points at the same height then your 'Break at discontinuities' component eliminates the middle point completely and then the 'Interpolate Curve' component gives a much bigger bump in the wrong direction. This was enough to get curves to meet from opposite sides.
I fixed this by changing the heights to 1.1 or 2.9, rather than 1.0 and 3.0, but it took a little while to work it out! Sigh.
I attach a new version. But I actually preferred it as it was before. See what you think!
Bob
p.s. in the first list, elements 11, 12, 23 and 24 go from 1 to 3; elements 17 and 18 go from 3 to 1. In the second list, elements 6, 17, 18 and 29 go from 1 to 3; elements 12 and 23 go from 3 to 1. Given the above fix, these can be easily seen.…
Added by Bob Mackay at 10:40pm on November 24, 2015
Mesh m = Mesh.CreateFromSphere(new Sphere(Point3d.Origin, 6), 10, 10);
var list = new System.Collections.Generic.List(); list.Add(lc);
list.Add(m);
var formatter = new System.Runtime.Serialization.Formatters.Binary.BinaryFormatter(); using (var fs = new System.IO.FileStream(filename, System.IO.FileMode.Create))
{
formatter.Serialize(fs, list);
fs.Close();
}
using (var fs = new System.IO.FileStream(filename, System.IO.FileMode.Open))
{
object o = formatter.Deserialize(fs);
var retrieved_list = o as System.Collections.Generic.List;
fs.Close();
}
…
300895
FB: https://www.facebook.com/ChidoStudio
FB: https://www.facebook.com/WEDOTdesign
Detalles:
Instructores:
Arturo de La Fuente (Chido Studio Argentina)
Eliana Monaco (Chido Studio Argentina)
Luis de La Parra (Chido Studio Mexico)
WS ROSARIO
Lugar:
DOSCASAS
ROSARIO: Sarmiento 1232 Planta Alta (2000 Rosario)
Fechas:
Viernes 16 de Mayo 2014 – 11:00 – 19:00 hs
Sábado 17 de Mayo 2014 – 11:00 – 19:00 hs
Domingo 18 de Mayo 2014 – 11:00 – 19:00 hs.
WS BUENOS AIRES
Lugar:
GARAGELAB
BsAs: Roseti 1380 CABA
Fechas:
Jueves 22 de Mayo 2014 – 18:00 – 21:00 hs
Viernes 23 de Mayo 2014 – 18:00 – 21:00 hs
Sábado 24 de Mayo 2014 – 11:00 – 20:00 hs.
Domingo 25 de Mayo 2014 – 11:00 – 20:00 hs
Importante:
Todos los niveles de experiencia son bienvenidos el único requisito es tener un entendimiento básico de los programas CAD y una actitud positiva hacia el aprendizaje de dichas herramientas. Necesitas llevar una laptop, nosotros te instalamos los programas de prueba.
Si planeas venir de fuera de la ciudad avísanos y te pondremos en contacto con otras personas que también vayan a hacerlo para en caso de desearlo puedan compartir su lugar de estancia.
Al participar en el workshop obtienes el 50 % de descuento en la licencia educacional Rhinoceros por medio de Rhino Chile.
COSTOS:
Profesionales: $1600
Estudiantes: $1400
Si ya realizaste algún Workshop de Chidostudio tenes un 20% descuento en esta inscripción.
Si venis en grupo con 2 amigos más cada uno tiene un %20 de descuento.
Proceso de Inscripción:
El participante deberá un mail a bsas@chidostudio.com donde se le enviará el procedimiento y medios de pago.
El depósito mínimo para reservar la matrícula es del 50% el resto deberá ser cubierto el día del evento.
Una vez que el depósito se haya llevado a cabo el participante deberá enviar a este correobsas@chidostudio.com los siguientes datos:
Nombre completo
Email
Teléfono
Institución educativa u Oficina
Archivo adjunto del recibo del depósito bancario
En cuanto recibamos la información immediatamente nos pondremos en contacto para especificar los pasos a seguir.
Contacto:
Arturo de La Fuente
bsas@chidostudio.com
Tel: (+54) 11-57268799
…
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!
…