analysis with Honeybee. Here is the tentative outline:
09:00 - 09:30
What is Honeybee, Introduction to daylighting simulation
09:30 - 11:00
Geometry preparation workflows, Radiance materials
11:00 - 11:10
Break
11:10 - 12:30
Sky types, Run your first simulation
12:30 - 13:30
Lunch
13:30 - 15:00
Daylighting analysis types, Result visualization, Getting started with annual daylight
15:00 - 15:15
Break
15:15 - 16:00
Annual daylight analysis and Results interpretation
Check MEBD page for more information including the registration link: http://www.mebd-penndesign.info/Honeybee-MEBD-Workshop-PennDesign
Please feel free to forward this to anyone of interest.
Cheers,
Mostapha
PS: Thank you all for the kind comments and emails for the Ladybug workshop. We recorded the workshop and are in the process of figuring out how to share it with the public. I will send an update once it is uploaded.
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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
bro su Grasshopper "Architettura Parametrica", co-director della AA Rome Visiting School per la Architectural Association di Londra (http://www.arturotedeschi.com/).
Il corso introdurrà il software Grasshopper, plug-in per la modellazione parametrica in Rhino. I partecipanti saranno guidati attraverso gli aspetti più importanti del programma e le principali tecniche per la programmazione visuale all’interno di Rhinoceros. Il corso è rivolto a studenti con esperienza minima nella modellazione 3D e si articolerà in lezioni teoriche ed esercitazioni. Sarà rilasciato un attestato di partecipazione.
principali argomenti: - Introduzione alla progettazione parametrica: teoria, esempi, casi studio - Grasshopper: concetti base, logica algoritmica, interfaccia grafica - Nozioni fondamentali: componenti, connessioni, data flow - Funzioni matematiche e logiche, serie, gestione dei dati - Analisi e definizione di curve e superfici - Definizione di griglie e pattern complessi - Trasformazioni geometriche - Data tree: gestione di dati complessi - Meshes e Subdivision Surfaces (Weaverbird)
GENOVA 11 > 14 APRILE 2013 programma completo ed iscrizioni…
cs/numpy-for-iron-python-wit... ) also fails to allow numpy import:
Numpy and Scipy are in directories here:
C:\Program Files (x86)\IronPython 2.7\Lib\site-packages\
This is all a sad joke, taking a full day so far. Rhino just sort of sucks for serious work. There's no way I can offer any Numpy/Scipy scripts to clients this way, just impossible. Rhino/Grasshopper Python should come with this stuff, dear developers, or have a simple installer that just works. It comes with math already doesn't it? So why not Numpy and Scipy for serious users?
Upon restarting Rhino, it totally changes behavior and spits out a crazy error upon importing Numpy:
Message: The type initializer for 'NumpyDotNet.NpyCoreApi' threw an exception.Traceback: line 11, in <module>, "C:\Program Files (x86)\IronPython 2.7\Lib\site-packages\numpy\core\multiarray.py" line 6, in <module>, "C:\Program Files (x86)\IronPython 2.7\Lib\site-packages\numpy\core\__init__.py" line 155, in <module>, "C:\Program Files (x86)\IronPython 2.7\Lib\site-packages\numpy\__init__.py" line 1, in <module>, "C:\Users\Nik\AppData\Local\Temp\TempScript.py"
The Grasshopper Python node editor gives the same error. Perhaps I can only import parts of Numpy using "from Numpy import XXXX"?…
Added by Nik Willmore at 3:32pm on October 11, 2015
of Space, 1984) and specified in (Turner A. , “Depthmap: A Program to Perform Visibility Graph Analysis, 2007), intuitively describe the difficulty of getting to other spaces from a certain space. In other words, the higher the entropy value, the more difficult it is to reach other spaces from that space and vice-versa. We compute the spatial entropy of the node as using the point depth set:
(11)
“The term is the maximum depth from vertex and is the frequency of point depth *d* from the vertex” (ibid). Technically, we compute it using the function below, which itself uses some outputs and by-products from previous calculations:
Algorithm 4: Entropy Computation
Given the graph (adjacency lists), Depths as List of List of integer, DepthMap as Dictionary of integer
Initialize Entropies as List(double)
For node as integer in range [0, |V|)
integer How_Many_of_D=0
double S_node=0
For depth as integer in range [1, Depths[node].Max()]
How_Many_of_D=DepthMap.Branch[(node,depth)].Count
double frequency= How_Many_of_D/|V|
S_node = S_node - frequency * Math.Log(frequency, 2)
Next
Entropies [node] = S_node
Next
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not working, then this can be a limitation of Honeybee, not the Terrain shading mask component.You can authenticate the mask shape by using the Udeuschle panorama generator (I used the following Trento coordinates: lat:46.066667, long:11.116667):
Sketchup has a similar plugin for Trynsys3D terrain shading masks.
I gave a reply on your upper questions in here, in component's release topic, so that it would be useful for others users too.
Actually I tried also to create the mask of the mountain using the topography I imported from Sketchup and the Ladybug Shading Mask II component. In this way the shading effect is well noticeable, but the process of creating the mask from such a complex geometry is very slow.
I can make a component which will automatically generate the topography of the local terrain, for a given latitude/longitude, but you will have to wait some time. I am currently doing some repairing around my house and cottage, and I do not have any spare time.Have in mind that depending on the configuration of you PC, you may not be able to have the terrain radius of up to 100 km. While Terrain Shading Mask component actually creates this terrain, it does not add it to the grasshopper document. In your case the terrain will be added to the grasshopper document which may crash Rhino depending on your PC configuration (for example it crashes Rhino on my PC).…
and visualizing data for ENVI-Met 4 software. ENVI-met is a cutting edge software used to analyse microclimate interactions in urban environment. Tens of different analysis types can be performed on the chosen building context. From Mean radiant temperature and local Wind speed to CO2 concentration and Pollutant dispersion in the air. To generate the building context for Ladybug ENVI-met components, Antonello used Gismo:
An example similar to results in upper screenshots has been been attached below. To run it, Gismo, Ladybug and Human plugins need to be installed. To perform the ENVI-met analysis, download ENVI-met 4 Basic for free, and install it. Steps in the .gh example file have been labelled from 1 to 11. They mostly consist of just setting a boolean toggle to True. An exception to this are steps 6 (set the folder path of your ENVI-met application install folder), and 8 (running the ENVI-met simulation). Step 8 has been explained in detail in the photo attached below (step8.jpg). Special thanks to Antonello for developing and guidance on ENVI-met application and components! Post questions below if you have any issues!…
Added by djordje to Gismo at 11:30am on March 25, 2017
ries", but it could be changed in the future with nicer and more interesting names.
It's perfectly known that lot of plugins has been released to empower GH panelling capabilities, but usually lightweight and native systems could be required to accomplish specific little (or big) design tasks. In addition to this, the panelling process is a task that let the user to play and learn and practice deeply concepts about surface/meshes topology, list and data trees management, etc. So I though that this could be a perfect starting point for the "Utilities series" in c+GH.
To open this group of c+GH post I will start with something simple that everyone that have used GH has tried sooner or later in his/her learning process: how to panel a surface using standard/built-in GH components only.
Topics that could be covered (aka, problem categories):
Planar panels.
Curved panels.
Mixed solutions: curvature/distortion triggers or limits.
Given a NURBS surface, create a single panelling system that implement one of the categories described for only one kind of panel (triangular, quadrilateral, n-gon). Of course, curved panels are not compatible with triangular shapes, etc, so try to pick a compatible combination.
Further considerations:
The implemented solution should let the user to interact with every panel easily, so the proposed algorithm should track the panellization process avoiding to destroy helpful information/data structures for further modifications in the panelling system.
NURBS and mesh solutions are both allowed.
None, plugin or scripted component allowed.
The cleanest, shorter and less processing-time-expensive solution in every category will be the winner (please, consider using profiler intensively).
Deadline: May 18, 2014.
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tic systems and iterated function systems.
https://www.food4rhino.com/app/chimpanzee
https://matousstieber.wordpress.com/
#chimpanzee3d
I would appreciate any feedback, suggestions or reports of bugs. Please email me at matous.stieber@outlook.com.
To install:
Delete any previous versions of Chimpanzee you have installed
In Grasshopper, choose File > Special Folders > Components folder > Unblocked the files
Restart Rhino and Grasshopper
Chimpanzee changelog
Aug 31, 2019 - Chimpanzee 0.2.
Update to add 38 new components including hyperchaotic systems, maps and strange attractors. Additional features and options added including exponent input to Mandelbrot Set and Burning Ship.
Nov 11, 2018 - Chimpanzee 0.1
initial release
Further development may include Mandelbulb, Quaternion Julia Set, etc.
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