hole new realm?
This Parametric Design Workshop will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros. The workshop will also include a hands on parametric project.
If you already know Grasshopper and would like to uplift your parametric knowledge, then you can choose option 2.
Option 1: General WEBINAR for Beginners - 16 hours: Start 20.06.2020
Option 2: Intensive WEBINAR for Intermediates - 8 hours: Start 27.06.2020
TIME ZONE: GMT +0200 BERLIN GERMANY TIME
Kindly reserve your Tickets here:
https://billetto.eu/e/parametric-design-webinar-rhino-grasshopper-Tickets-439647/
WEBINAR LINK:
WEBINAR invitation link will be sent to all participants after registration via private Email…
OSC are just simple horizontal sliders.
The problem I'm facing is that additional toggle items in OSC, which write only 0 or 1, don't get through properly. They do without problems as long as the timer on the FireFly is off. I also can write to the OSC app via gHowl to turn LEDs on or off.
As soon the FireFly timer is back on the toggle get lost in 8 of 10 attempts. The sliders still get through correct.
Any idea if this is because of a timing problem between gHowl and FireFly? I played around with different GH timer settings but that didn’t change much.
Cheers,
Peter…
component in GH for a project im working on. as part of that component I want to dynamic show text the rhino viewport but I don't want to have to return a value that I then plug into the "text tag 3d" component. I want to build a similar method into my custom component.
therein lies my problem. I haven't yet figured out how to get my vb code to produce text.
my latest attempt looks a little something like this.
Dim TestPoint3D As New rhino.Geometry.Point3d(0, 0, 0) Dim TestVect As New rhino.Geometry.Vector3d(0, 0, 1) Dim TestPlane As New plane(TestPoint3D, TestVect) Dim TestText As New display.text3d("bob", TestPlane, 10) ListItem = TestPlane TextItem = TestText
but I get nothing out of it.
latest theory is to try using "Draw3dText Method (Text3d, Color)" but this is where ive hit a wall
if I understand how this works than I would think I would code this
Dim TestText As New Rhino.Display.DisplayPipline.Draw3dText( text here, and color here)
but the hint that im getting after "DisplayPipline" doesnt show a "Draw3dText" method?
so im confused?
again my overall goal is to get text to display in the viewport directly through my component
any thoughts or ideas, or if im even in the ballpark on this one would be helpful.
thanks!…
nterior designers, architects and civil engineers)
certificates are offered from the center for continuing and professional education in BAU!
starting date 6/9/2021, end date 21/9/2021
( days:6-7-9-10-13-14-16-17-20-21)
10 days
2 hours/day
Total hours 20
(BAU fees 500 000L.L
Non BAU fees 700 000L.L
Foreigners fees150$)
videos links for workshop results
video 1 link:
https://baudom-my.sharepoint.com/:v:/g/personal/f_belok_bau_edu_lb/EUSs6VOpTv9BglgQHHk_nbsB0iLt9NsxKBj23acjmrpuyw
video 2 link:
https://baudom-my.sharepoint.com/:v:/g/personal/f_belok_bau_edu_lb/ETvjbvNd97lCss_cBJzwwAsBsoPl4WOGWGHD9WAF87TKuQ
TO REGISTER and for more details contact Dr. Fatima Yahya Belok through Facebook or the following number
Contact: 0096171447889
Email: fatimabelok21@gmail.com…
of area...that is quite a lot depending on the application.
I was able to do a little parser to format the data correctly for Elk. It is not so elegant, but I include it as an example. I was able to retrieve more that 50,000 nodes. Of course, it takes time to download, so this blocks GH for a few seconds depending on how much you are retrieving.
One thing to note, the method I am using (XDocument.Load(url)) does not seem to include a 'timeout' property. Meaning that large queries might timeout...this happened to me. An alternative would be to just do a WebRequest which does have a timeout property or use an XMLResolver which I suppose could also have this property.
Here is the script. It has the following inputs:
urlPre (string):the url prefix for the mapquest xapi api. Should be:
"http://open.mapquestapi.com/xapi/api/0.6/*[bbox="
path (string):this is where you want to save the incoming data. I suppose this could be done without a local file, all in memory, but since elk wants a file name, it is here. I save data to a folder in my c drive, so a possible value could be:
"C:\Data\map.osm"
left (string):min longitude in decimal degrees
bottom (string):min latitude in decimal degrees
right (string):max longitude in decimal degrees
top (string):max latitude in decimal degrees
The output is just the filename you put into the Path input. You can then feed this to Elk.
Here is the script:
private void RunScript(string urlPre, string path, string left, string bottom, string right, string top, ref object A){string url = urlPre + left + "," + bottom + "," + right + "," + top + "]"; System.Xml.Linq.XDocument xDoc = System.Xml.Linq.XDocument.Load(url.ToString()); //Mapquest does not seem to return a proper bounds line, and it seems this throws something off, this next line adds the appropriate line System.Xml.Linq.XElement xElem = System.Xml.Linq.XElement.Parse(""<bounds minlat=\"" + bottom + "\" minlon=\"" + left + "\" maxlat=\"" + top + "\" maxlon=\"" + right + "\" />""); xDoc.Root.Add(xElem); xDoc.Save(path);A = path;}
This is 76995 nodes from what I can tell. Took about 129 seconds to compute everything according to GH.
…
troducción a su plugin de modelado paramétrico, Grasshopper.
Con este tipo de herramientas podemos pensar formas más allá de las cajas para diseñar, porque seremos capaces controlar con total rigor geometrías muy complejas.
En el siguiente video, podemos ver un ejemplo realizado durante un curso impartido anteriormente en Madrid por el profesor, Francisco Tabanera, en el que se realiza una interpretación del proyecto de BIG para la Biblioteca Nacional de Kazajstán.
<a title="Interpretación de la Biblioteca Naiconal de Kazakstan, de BIG" href="http://www.youtube.com/watch?v=YLldO-SxgPw" target="_blank"></a>
A lo largo del curso se realizarán diferentes ejemplos que podrán ser realizados por todos los asistentes, ya que no es necesario ningún conocimiento previo para su seguimiento.
El curso se desarrollará en las oficinas de Arquitecton en Barcelona con el siguiente horario:
HORARIO
Sábado 1 de Marzo
De 9.30 a 13.30h.
Sábado 1 de Marzo
De 15.30 a 19.30h.
El curso está planteado para un máximo de 9 alumnos, para conseguir el máximo aprovechamiento posible por parte de los mismos.
El curso tiene un precio de 90€. Estudiantes y desempleados tienen un descuento del 10%. Es posible asegurarte una plaza con un primer pago de 25€ a modo de reserva.
Apúntate aquí…
ies and ideas (in this case agent-based modelling) simply because they are the new cool thing to do and, if we think carefully about how the integration of agent-based modeling will improve the accuracy and usefulness of our models, we are more likely to make lasting contributions through their integration.
For example, it seems vital to me that such agent-based models be grounded in some clear quantifiable observations of human behavior in real buildings as opposed to relying on our own coefficients to represent how valuable we think certain things are to the occupants. I will give an example of two agent-based ideas that I have had - one of which has turned out to seem much more valuable in the long-run because of it's grounding in real-world data and I plan to implement soon.
To start with the more valuable example, ever since I read this awesome book on adaptive thermal comfort (https://books.google.com/books?id=vE7FBQAAQBAJ&printsec=frontcover&dq=adaptive+thermal+comfort&hl=en&sa=X&ved=0ahUKEwjDmO6avNnJAhUD9h4KHXWVBuAQ6AEIHDAA#v=onepage&q=adaptive%20thermal%20comfort&f=false), I have had several ideas for how to integrate the findings of recent comfort surveys into our energy models. Generally, the focus of thermal comfort research seems to be shifting from theoretical human energy balance calculations to surveys of occupant behavior, giving us a lot of great data that helps incorporate these behavioral factors in our energy models. To continue one of the ideas that you mention, Theodore, here is a plot from the book that describes the window-opening behavior of occupants as the indoor temperature increases:
Currently, EnergyPlus does not easily allow you to set such a function for window-opening, as you point out but the incorporation of this behavior seems necessary to produce an accurate model of a naturally ventilated building (since opening all of the windows as soon as the indoor temperature hits 21 C is far from realistic). To get around this, I was thinking of including an option on the nat vent component that will put in a series of IF/THEN nat vent objects that approximate this smooth function through a step function:
IF 19 < indoor temperature < 20 THEN WindowOpening = 10%
IF 20 < indoor temperature < 21 THEN WindowOpening = 15%
IF 21 < indoor temperature < 22 THEN WindowOpening = 21%
IF 22 < indoor temperature < 23 THEN WindowOpening = 35%
...
I am hoping to implement this soon.
To describe the example that I have realized was not so helpful with time, when I was first drafting the idea for high-resolution comfort maps (https://www.youtube.com/playlist?list=PLruLh1AdY-Sj3ehUTSfKa1IHPSiuJU52A), I originally thought that I would develop computer models an animations of occupants moving around the thermally diverse space to make themselves more comfortable. Once I started to get into this, however, I realized that the social characteristics of a space usually have a much larger impact on where people place themselves than the thermal characteristics and it is not until the thermal characteristics become very uncomfortable or the presence of other people is completely removed that the thermal environment dominates the movement behavior. Thus, in order to model the occupant behavior, I would have to code in the relative importance of a large number of these social characteristics in relation to thermal comfort, which would have been a process of me simply making up coefficients to produce cool-looking but somewhat meaningless animations. It is only when my nicely-designed thermal environments were aligned with the social/programmatic characteristics of the space that I could argue that I was justifiably adding value since the thermal characteristics were not in contradiction to or being weighted against the social ones. So, in the end, realized that all I needed in order to produce a good design was to align the thermal environment with the placing of program and the agent-based modelling would not have enabled the production of a much better design. This is the reason why the human silhouettes are manually placed in the thermal animations on the youtube playlist in the above link and is the reason why I do not intend to incorporate agent-based modelling in this particular manner.
Let me know your thoughts on this as I realize I may also be looking at this from a narrow perspective that is not informed by all that agent-based modelling has to offer.
-Chris…
isms. Through simple mechanisms embedded within the material logic of natural systems, specific stimuli can activate a particular response. This response occurs in carnivorous plants such as the Venus fly-trap, which uses turgor pressure to trap small insects in order to feed, and worms, which by contracting differently oriented muscles, achieve movement. This ten-day intensive workshop, co-taught by the faculty of the Emergent Technologies and Design Programme at the AA and the faculty of Architecture and MEDIAlab at California College of the Arts, will explore active systems in nature, investigating biomimetic principles in order to analyze, design and fabricate prototypes that respond to electronic and environmental stimuli. Students will work in teams to research specific biological systems, extracting logics of organization, geometry, structure and mathematics. Advanced analysis, simulation, modeling and fabrication tools will be introduced in order to apply this information to the design of both passive and active responsive architectural systems. Investigation and application of robotics, sensors and actuators will be employed for the activation of the material system investigation through the construction of working responsive prototypes.
+ CONTENT TAGS: Biodynamic, Parametric, Scripted, Mimetic, Responsive, Interactive, Digitally Fabricated
+ SOFTWARE: Rhino, Grasshopper, Firefly, RhinoScript, Arduino, Processing
CORE FACULTY
Michael Weinstock (Academic Head, Director of Emergent Technologies Programme, AA London UK)
Christina Doumpioti, Evan Greenberg, Konstantinos Karatzas (Tutors, AA EmTech Programme, London UK)
Jason Kelly Johnson [Future Cities Lab], Andrew Kudless [Matsys] (CCA MediaLab Coordinators, SF CA)
ASSOCIATED FACULTY
George Jeronimidis (Director of Center for Biomimetics, University of Reading UK); Andrew Payne (LIFT Architects, Grasshopper Primer); Daniel Segraves (ASGG Adrian Smith + Gordon Gill Architecture); Ronnie Parsons + Gil Akos (Studio Mode, NY); Daniel Piker (Kangaroo Project Live Physics)
ENROLLMENT INFORMATION
http://sanfrancisco.aaschool.ac.uk; or visit the CCA MEDIAlab website: http://mlab.cca.edu
(Workshops are non-credit. Enrollment is processed by the AA. Workshop will run the full 10 days.)
CONTACT
visitingschool@aaschool.ac.uk or mlab@cca.edu
DOWNLOADS
Application Form…
e ghx file to grasshopper canvas
07 change the FLoc
08 save rhino-geometry to your FLoc
09 toggle the boolean switch to get the maya file in your FLoc
10 open maya 2012
11 import testCamera in maya
12 AND IT DOES NOT WORK!
HEEEEEELLLLLPPPPP (-;
…
ino al suo utilizzo per la risoluzione di tematiche di modellazione complessa di ARCHITETTURA e DESIGN.Durante le lezioni si insegneranno i comandi avanzati del software Rhinoceros ed inoltre i discenti, alla fine del percorso formativo saranno anche in grado di creare modelli attraverso il linguaggio della Plug-in avanzata Grasshopper(http://www.grasshopper3d.com/photo).
Il workshop si divide in due moduli che possono essere frequentati anche separatamente:
STRUTTURA
mod.1 _MODELLAZIONE BASE con Rhinoceros | Venerdì 14 Dicembre e Sabato 15 Dicembre | dalle 10,00 alle 19,00
Scadenza iscrizione: Lunedì 10 Dicembre
mod.2 _MODELLAZIONE AVANZATA con Rhinoceros e Grasshopper | Domenica 16 Dicembre e Lunedì 17 Dicembre | dalle 10,00 alle 19,00
Scadenza iscrizione: Mercoledì 12 Dicembre
SINTESI
mod.1 _MODELLAZIONE BASE con Rhinoceros
L’obbiettivo del corso è quello di insegnare in tempi brevi, gli strumenti base della modellazione 2D e 3D e la renderizzazione dei modelli creati. Le ore saranno dedicate allo studio dell’interfaccia del software Rhinoceros e all’apprendimento dei comandi base per la gestione del documento di progetto; si approfondiranno i comandi più utilizzati per l’editing e la costruzione del disegno per arrivare alle operazioni booleane semplici e complesse. Inoltre si imparerà a costruire e trasformare curve e superfici free-form. Le nozioni ed i metodi verranno trasmessi trattando temi e problematiche reali di design ed architettura.
mod.2 _MODELLAZIONE AVANZATA con Rhinoceros e Grasshopper
Il secondo modulo tratterà forme complesse implementando la modellazione avanzata di Rhinoceros con le potenzialità espresse dalla plug-in Grasshopper. La plug-in di Rhinoceros permette di disegnare abbandonando l’usuale interfaccia dei software di rappresentazione, consentendo un rapporto più diretto con il linguaggio proprio del computer: la programmazione. Questo cambiamento porta ad una radicale variazione del rapporto che il progettista ha con lo strumento di rappresentazione digitale. I partecipanti saranno orientati verso un nuovo rapporto con le forme create che oltre ad essere frutto di trasformazioni delle entità primitive che Rhinoceros propone, si costruiranno anche in relazione a parametri variabili.
Nel corso si imparerà a comporre algoritmi semplici, di carattere principalmente geometrico, in grado di generare forme e gestire i comportamenti delle stesse se sottoposte a variabili esterne.
In fine si imparerà a confrontarsi con un contesto evolutivo, che influenza i parametri della rappresentazione portando a dei modelli dinamici.
…